-

63

72

The key point of condition monitoring and fault diagnosis of gearboxes is a fault feature extraction. The study of fault feature detection in rotating machinery from vibration analysis and diagnosis has attracted sustained attention during past decades. In most cases determination of the condition of a gearbox requires study of more than one feature or a combination of several techniques. This paper attempts to survey and summarize the recent research and development of feature extraction methods for gear fault diagnosis, providing references for researchers concerning with this topic and helping them identify further research topics. First, the feature extraction methods for gear faults diagnosis are briefly introduced, the usefulness of the method is illustrated and the problems and the corresponding solutions are listed. Then, recent applications of feature extraction methods for gear faults diagnosis are summarized, in terms of industrial gearboxes. Finally, the open problems of feature extraction methods for gear fault diagnosis are discussed and potential future research directions are identified. It is expected that this review will serve as an introduction summary of vibration feature extraction methods for gear faults diagnosis for those new to the concepts of its applications to gear fault diagnosis based on vibration

[1] H. Hong, M. Liang, Separation of fault features from a single-channel mechanical signal mixture using wavelet decomposition, Mechanical Systems and Signal Processing, 21 (2007) 2025-2040.

[2] E.B. Halim, M.A.A. Shoukat Choudhury, S.L. Shah, M.J. Zuo, Time domain averaging across all scales: A novel method for detection of gearbox faults, Mechanical Systems and Signal Processing, 22 (2008) 261-278.

[3] M.A. Jafarizadeh, R. Hassannejad, M.M. Ettefagh, S. Chitsaz, Asynchronous input gear damage diagnosis using time averaging and wavelet filtering, Mechanical Systems and Signal Processing, 22 (2008) 172-201.

[4] B. Li, P.-l. Zhang, H. Tian, S.-s. Mi, D.-s. Liu, G.-q. Ren, A new feature extraction and selection scheme for hybrid fault diagnosis of gearbox, Expert Systems with Applications, 38 (2011) 10000-10009.

[5] J. Lin, L. Qu, FEATURE EXTRACTION BASED ON MORLET WAVELET AND ITS APPLICATION FOR MECHANICAL FAULT DIAGNOSIS, Journal of Sound and Vibration, 234 (2000) 135-148.

[6] R.B. Randall, J. Antoni, S. Chobsaard, THE RELATIONSHIP BETWEEN SPECTRAL CORRELATION AND ENVELOPE ANALYSIS IN THE DIAGNOSTICS OF BEARING FAULTS AND OTHER CYCLOSTATIONARY MACHINE SIGNALS, Mechanical Systems and Signal Processing, 15 (2001) 945-962.

[7] W. Li, T. Shi, G. Liao, S. Yang, Feature extraction and classification of gear faults using principal component analysis, Journal of Quality in Maintenance Engineering, 9 (2003) 132-143.

[8] Y. Lei, M.J. Zuo, Z. He, Y. Zi, A multidimensional hybrid intelligent method for gear fault diagnosis, Expert Systems with Applications, 37 (2010) 1419-1430.

[9] Y. Lei, Z. He, Y. Zi, Q. Hu, Fault diagnosis of rotating machinery based on multiple ANFIS combination with GAs, Mechanical Systems and Signal Processing, 21 (2007) 2280-2294.

[10] C. Li, M. Liang, Time–frequency signal analysis for gearbox fault diagnosis using a generalized synchrosqueezing transform, Mechanical Systems and Signal Processing, 26 (2012) 205-217.

[11] L. Hong, J.S. Dhupia, A time domain approach to diagnose gearbox fault based on measured vibration signals, Journal of Sound and Vibration, 333 (2014) 2164-2180.

[12] J. Cheng, D. Yu, J. Tang, Y. Yang, Application of frequency family separation method based upon EMD and local Hilbert energy spectrum method to gear fault diagnosis, Mechanism and Machine Theory, 43 (2008) 712-723.

[13] F. Combet, L. Gelman, Optimal filtering of gear signals for early damage detection based on the spectral kurtosis, Mechanical Systems and Signal Processing, 23 (2009) 652-668.

[14] J. Antoni, The spectral kurtosis: a useful tool for characterising non-stationary signals, Mechanical Systems and Signal Processing, 20 (2006) 282-307.

[15] W. Wang, EARLY DETECTION OF GEAR TOOTH CRACKING USING THE RESONANCE DEMODULATION TECHNIQUE, Mechanical Systems and Signal Processing, 15 (2001) 887-903.

[16] J. Yuan, Z. He, Y. Zi, Gear fault detection using customized multiwavelet lifting schemes, Mechanical Systems and Signal Processing, 24 (2010) 1509-1528.

[17] R. Shao, W. Hu, X. Huan, L. Chen, Multi-damage feature extraction and diagnosis of a gear system based on higher order cumulant and empirical mode decomposition, Journal of Vibration and Control, (2013).

[18] B. Chen, Z. Zhang, C. Sun, B. Li, Y. Zi, Z. He, Fault feature extraction of gearbox by using overcomplete rational dilation discrete wavelet transform on signals measured from vibration sensors, Mechanical Systems and Signal Processing, 33 (2012) 275-298.