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Arabian Journal for Science and Engineering

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12-06-2021 | Research Article-Mechanical Engineering

Detection of Local Gear Tooth Defects on a Multistage Gearbox Operating Under Fluctuating Speeds Using DWT and EMD Analysis

Authors: Vamsi Inturi, A. S. Pratyush, G. R. Sabareesh

Published in: Arabian Journal for Science and Engineering | Issue 12/2021

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Abstract

Contemporary fault diagnosis algorithms constitute advanced signal processing techniques integrated with the data-driven feature classification algorithms which make an effective fault diagnosis scheme for rotating machinery such as gearboxes and motors. Feature extraction is a prevalent task which is intended to assist the fault diagnosis process by eliciting a set of condition indicators (features) from the input raw signal. In actual scenario, the gearboxes may have multiple stages and are rather operating under fluctuating speeds. The feature extraction technique employed at medium and high ranges of operating speed may not be adequate during low operating speeds. In this present study, the feature extraction abilities of discrete wavelet transform (DWT) and empirical mode decomposition (EMD) in terms of their relative effectiveness while ascertaining the local gear tooth defects of a multistage gearbox are compared. Two local gear tooth defects, namely root crack and tooth chip with three severity levels, are seeded artificially. The experiments are carried out on a three-stage spur gearbox experiencing fluctuating operating speeds. Vibration analysis is performed, and the recorded raw vibration signatures are decomposed using DWT and EMD analyses separately. Mother wavelet selection is done using the criteria of energy-to-Shannon entropy ratio. The identification of intrinsic mode functions (IMFs) is made by examining the Pearson correlation coefficient. Various descriptive statistics are obtained from the wavelet coefficients and IMFs and the potential indices among them are chosen by implementing the decision tree algorithm. Finally, support vector machine (SVM) algorithm is executed to distinguish among the various defect severity levels. It has been observed that the SVM in conjunction with DWT has resulted in better classification than SVM in conjunction with EMD.

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Wang, J.; Li, S.; Xin, Y.; An, Z.: Gear fault intelligent diagnosis based on frequency-domain feature extraction. J. Vib. Eng. Technol. 7(2), 159–166 (2019)CrossRef

Chaari, F.; Baccar, W.; Abbes, M.S.; Haddar, M.: Effect of spalling or tooth breakage on gearmesh stiffness and dynamic response of a one-stage spur gear transmission. Eur. J. Mech. A Solids 27(4), 691–705 (2008)CrossRef

Maheswari, R.U.; Umamaheswari, R.: Trends in non-stationary signal processing techniques applied to vibration analysis of wind turbine drive train—a contemporary survey. Mech. Syst. Signal Process. 85, 296–311 (2017)CrossRef

Inturi, V.; Shreyas, N.; Chetti, K.; Sabareesh, G.R.: Comprehensive fault diagnostics of wind turbine gearbox through adaptive condition monitoring scheme. Appl. Acoust. 174, 107738 (2020)CrossRef

Ahamed, N.; Pandya, Y.; Parey, A.: Spur gear tooth root crack detection using time synchronous averaging under fluctuating speed. Measurement 52, 1–11 (2014)CrossRef

Hong, L.; Dhupia, J.S.: A time domain approach to diagnose gearbox fault based on measured vibration signals. J. Sound Vib. 333(7), 2164–2180 (2014)CrossRef

Rai, A.; Upadhyay, S.H.: A review on signal processing techniques utilized in the fault diagnosis of rolling element bearings. Tribol. Int. 96, 289–306 (2016)CrossRef

Yan, R.; Gao, R.X.; Chen, X.: Wavelets for fault diagnosis of rotary machines: a review with applications. Sig. Process. 96, 1–15 (2014)CrossRef

Vamsi, I.; Sabareesh, G.R.; Penumakala, P.K.: Comparison of condition monitoring techniques in assessing fault severity for a wind turbine gearbox under non-stationary loading. Mech. Syst. Signal Process. 124, 1–20 (2019)CrossRef

10.

Radhika, S.; Sabareesh, G.R.; Jagadanand, G.; Sugumaran, V.: Precise wavelet for current signature in 3\(\phi \) IM. Expert Syst. Appl. 37(1), 450–455 (2010)CrossRef

11.

Kane, P.V.; Andhare, A.B.: Application of psychoacoustics for gear fault diagnosis using artificial neural network. J. Low Freq. Noise Vib. Active Control 35(3), 207–220 (2016)CrossRef

12.

Wang, L.; Liu, Z.; Miao, Q.; Zhang, X.: Time-frequency analysis based on ensemble local mean decomposition and fast kurtogram for rotating machinery fault diagnosis. Mech. Syst. Signal Process. 103, 60–75 (2018)CrossRef

13.

Dybała, J.; Zimroz, R.: Rolling bearing diagnosing method based on empirical mode decomposition of machine vibration signal. Appl. Acoust. 77, 195–203 (2014)CrossRef

14.

Chen, D.; Lin, J.; Li, Y.: Modified complementary ensemble empirical mode decomposition and intrinsic mode functions evaluation index for high-speed train gearbox fault diagnosis. J. Sound Vib. 424, 192–207 (2018)CrossRef

15.

Mohanty, S.; Gupta, K.K.; Raju, K.S.: Hurst based vibro-acoustic feature extraction of bearing using EMD and VMD. Measurement 117, 200–220 (2018)CrossRef

16.

Zhao, Q.; Han, T.; Jiang, D.; Yin, K.: Application of variational mode decomposition to feature isolation and diagnosis in a wind turbine. J. Vib. Eng. Technol. 7(6), 639–646 (2019)CrossRef

17.

Inturi, V.; Sabareesh, G.R.; Supradeepan, K.; Penumakala, P.K.: Integrated condition monitoring scheme for bearing fault diagnosis of a wind turbine gearbox. J. Vib. Control 25(12), 1852–1865 (2019)CrossRef

18.

Heyns, P.S.; Vinson, R.; Heyns, T.: Rotating machine diagnosis using smart feature selection under non-stationary operating conditions. Insight-Non-Destruct. Test. Condition Monit. 58(8), 417–422 (2016)CrossRef

19.

Wang, X.; Makis, V.; Yang, M.: A wavelet approach to fault diagnosis of a gearbox under varying load conditions. J. Sound Vib. 329(9), 1570–1585 (2010)CrossRef

20.

Hemmati, F.; Orfali, W.; Gadala, M.S.: Roller bearing acoustic signature extraction by wavelet packet transform, applications in fault detection and size estimation. Appl. Acoust. 104, 101–118 (2016)CrossRef

21.

Praveen, G.; Vamsi, I.; Suresh, K.; Radhika, S.: Evaluation of surface roughness in incremental forming using image processing based methods. Measurement 164, 108055 (2020)CrossRef

22.

Balavignesh, V.N.; Gundepudi, B.; Sabareesh, G.R.; Vamsi, I.: Comparison of conventional method of fault determination with data-driven approach for ball bearings in a wind turbine gearbox. Int. J. Perform. Eng. 14(3), 397–412 (2018)

23.

Inturi, V.; Sachin, P.R.; Sabareesh, G.R.: Supervised feature selection methods for fault diagnostics at different speed stages of a wind turbine gearbox. In: International Conference on Modelling, Simulation and Intelligent Computing, pp. 478–486. Springer, Singapore (2020)

24.

Sugumaran, V.; Sabareesh, G.R.; Ramachandran, K.I.: Fault diagnostics of roller bearing using kernel based neighborhood score multi-class support vector machine. Expert Syst. Appl. 34(4), 3090–3098 (2008)CrossRef

25.

Liu, R.; Yang, B.; Zio, E.; Chen, X.: Artificial intelligence for fault diagnosis of rotating machinery: a review. Mech. Syst. Signal Process. 108, 33–47 (2018)CrossRef

26.

Saimurugan, M.; Ramachandran, K.I.; Sugumaran, V.; Sakthivel, N.R.: Multi component fault diagnosis of rotational mechanical system based on decision tree and support vector machine. Expert Syst. Appl. 38(4), 3819–3826 (2011)CrossRef

Title: Detection of Local Gear Tooth Defects on a Multistage Gearbox Operating Under Fluctuating Speeds Using DWT and EMD Analysis
Authors: Vamsi Inturi
A. S. Pratyush
G. R. Sabareesh
Publication date: 12-06-2021
Publisher: Springer Berlin Heidelberg
Published in: Arabian Journal for Science and Engineering / Issue 12/2021
Print ISSN: 2193-567X
Electronic ISSN: 2191-4281
DOI: https://doi.org/10.1007/s13369-021-05807-0

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