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Automation of fault diagnosis of bearing by application of fuzzy inference system (FIS)

Published online by Cambridge University Press:  01 September 2014

Fateh Harrouche  and
Ahmed Felkaoui
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Abstract

This work deals with the application of the fuzzy logic to automate diagnosis of bearing defects in rotating machines based on vibration signals. The classification tool used is a fuzzy inference system (FIS) of Mamdani type. The vector form of input contains parameters extracted from the signals collected from the test bench studied. The output vector contains the classes for the different operating modes of the experimental study. The results show that; pretreatment data (filtering, decimation,...), the choice of parameters of fuzzy inference system (input variables and output, types and parameters of membership functions associated with different input and output variables of the system, the generation of fuzzy inference rules,...) are of major importance for the performance of fuzzy inference system used as a tool for fault diagnosis of rotating machinery.

Keywords

Rotating machinesfuzzy logicfuzzy inferenceFault diagnosissignal processing
Type
Research Article
Information
Mechanics & Industry , Volume 15 , Issue 6 , 2014 , pp. 477 - 485
Copyright
© AFM, EDP Sciences 2014

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References

Liu, T., Singonahalli, J.H., Iyer, N.R., Detection of roller bearing defects using expert systems and fuzzy logic, Mech. Syst. Signal Process. 10 (1996) 595614 CrossRefGoogle Scholar
Mechefske, C.K., Objective Machinery Fault Diagnosis Using Fuzzy Logic, Mech. Syst. Signal Process. 12 (1998) 885862 CrossRefGoogle Scholar
Lou, X., Loparo, K.A., Bearing fault diagnosis based on wavelet transform and fuzzy inference, Mech. Syst. Signal Process. 18 (2004) 10771095 CrossRefGoogle Scholar
Sugumaran, V., Ramachandran, K.I., Automatic rule learing using decision tree for fuzzy classifier in fault diagnosis of roller bearing, Mech. Syst. Signal Process. 21 (2007) 22372247 CrossRefGoogle Scholar
Boutros, T., Liang, M., Mechanical fault detection using fuzzy index fusion, Int. J. Machine Tools Manuf. 47 (2007) 17021714 CrossRefGoogle Scholar
Wu, J.-D., Hsu, C.-C., Fault gear identification using vibration signal with discrete wavelet transform technique and fuzzy-logic inference, Expert Syst. Appl. 36 (2009) 37853794 CrossRefGoogle Scholar
Saravanan, N., Cholairajan, S., Ramachandran, K.I., Vibration-based fault diagnosis of spur bevel gear box using fuzzy technique, Expert Syst. Appl. 36 (2009) 31193135 CrossRefGoogle Scholar
Wu, J.D., Hsu, C.C., Fault gear identification using vibration signal with discrete wavelet transform technique and fuzzy logic inference, Expert Syst. Appl. 36 (2009) 37853794 CrossRefGoogle Scholar
Aliustaoglu, C., Metin Ertunc, H., Ocak, H., Tool wear condition monitoring using a sensor fusion model based on fuzzy inference system, Mech. Syst. Signal Process. 23 (2009) 539546 CrossRefGoogle Scholar
K.A. Loparo, Bearings vibration data set, Case Western Reserve University, http://www.eecs.cwru.edu/laboratory/bearing/ download.htmS.
Mathworks, Fuzzy Logic Toolbox–for Use with MATLABs, User manual of Mathworks, 2000