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Neural Computing and Applications

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18-04-2017 | Original Article

Failure prognostics of heavy vehicle hydro-pneumatic spring based on novel degradation feature and support vector regression

Authors: Cheng Yang, Ping Song, Xiongjun Liu

Published in: Neural Computing and Applications | Issue 1/2019

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Abstract

The hydro-pneumatic spring, as an important element of the suspension system for heavy vehicles, has attracted the attention of researchers for a long time because it plays such an important role in the steering stability, driving comfort, and driving safety of these vehicles. In this paper, we aim to solve the maintenance problems caused by gas leakage and oil leakage faults in hydro-pneumatic springs. The causes of hydro-pneumatic spring faults and their modes are investigated first. Then, we propose a novel time domain fault feature, called degraded pressure under the same displacement, and a novel feature extraction method based on linear interpolation and redefined time intervals. This feature extraction method is then combined with a data-driven prognostic method that is based on support vector regression to predict the failure trends. When compared with traditional prognostic methods for suspension systems based on vibration signals and vehicle dynamics models, the proposed method can evaluate the real-time spring condition without use of additional sensors or an accurate dynamic model. Therefore, the computational cost of the proposed method is very low and is also suitable for use in vehicles that are equipped with low-cost microprocessors. In addition, hydro-pneumatic spring performance degradation experiments and simulations based on AMEsim software are designed. The experimental data, real vehicle historical data, and simulation data are used to verify the feasibility of the proposed method.

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Vichare NM, Pecht MG (2006) Prognostics and health management of electronics [J]. IEEE Transactions on Components & Packaging Technologies 29(1):222–229CrossRef

Lee J, Wu F, Zhao W et al (2014) Prognostics and health management design for rotary machinery systems—reviews, methodology and applications [J]. Mechanical Systems & Signal Processing 42(1–2):314–334CrossRef

Tsui KL, Chen N, Zhou Q et al (2015) Prognostics and health management: a review on data driven approaches [J]. Math Probl Eng 2015(6):1–17CrossRef

David Ludovici, Michael Bray, Vish Wickramanayake (2013) Health and usage monitoring proof of concept study using army land vehicles [C]. 15th Australian International Aerospace Congress

Sankavaram C, Kodali A, Pattipati K (2013) An integrated health management process for automotive cyber-physical systems[C]. IEEE ICNC 2013 International Workshop on Cyber-Physical Systems :82–86

Ompusunggu A, Papy JM, Vandenplas S (2016) Kalman-filtering-based prognostics for automatic transmission clutches [J]. IEEE/ASME Transactions on Mechatronics 21(1):419–430

Ompusunggu A P, Vandenplas S, Sas P et al. (2012) Health Assessment and Prognostics of Automotive Clutches[C]// European Conference of the Prognostics and Health Management Society

Yu M, Wang D (2014) Model-based health monitoring for a vehicle steering system with multiple faults of unknown types [J]. IEEE Trans Ind Electron 61(61):3574–3586

Banks J, Brought M, Estep J et al. (2011) Health and usage monitoring for military ground vehicle power generating devices[C]. IEEE Aerospace Conference. IEEE Computer Society :1–17

10.

Hamed M, Tesfa B, Gu F et al. (2014) A study of the suspension system for the diagnosis of dynamic characteristics[C]. Automation and Computing (ICAC), 2014 20th International Conference on, Cranfield 152–157

11.

Solomon U, Padmanabhan C (2011) Hydro-gas suspension system for a tracked vehicle: modeling and analysis[J]. J Terrramech 48(2):125–137CrossRef

12.

Bartnicki A, Muszyński T, Rubiec A (2015) Hydropneumatic suspension efficiency in terms of Teleoperated UGV research[J]. Solid State Phenom 237(1):195–200CrossRef

13.

Ferreira C, Ventura P, Morais R et al (2009) Sensing methodologies to determine automotive damper condition under vehicle normal operation[J]. Sensors & Actuators A Physical 156(1):237–244CrossRef

14.

Hernandezalcantara D, Moralesmenendez R, Amezquitabrooks L (2015) Fault Detection for Automotive Shock Absorber[C]// Journal of Physics: Conference Series :012037

15.

Luo J, Pattipati KR, Qiao L et al (2008) Model-based prognostic techniques applied to a suspension system [J]. IEEE Trans Syst Man Cybern Syst Hum 38(5):1156–1168CrossRef

16.

Wei X, Jia L, Liu H (2013) A comparative study on fault detection methods of rail vehicle suspension systems based on acceleration measurements [J]. Vehicle System Dynamics International Journal of Vehicle Mechanics & Mobility 51(5):700–720CrossRef

17.

Zhao F, Guan JF, Gu L et al. (2016) Experimental study on wheeled vehicle hydro-pneumatic suspension fault detection [J]. Journal of Beijing Institute of Technology (2)

18.

Jaoude AA (2014) Analytic and linear prognostic model for a vehicle suspension system subject to fatigue [J]. Systems Science & Control Engineering 3(1):81–98CrossRef

19.

Guo J, Jiao N, Jiang L et al. (2014) Hydro-pneumatic suspension gasbag reliability improvement based on FMEA and FTA[C]. International Conference on Reliability, Maintainability and Safety. IEEE 592–594

20.

Drucker H, Burges CJC, Kaufman L et al (1996) Support vector regression machines. [J]. Adv Neural Inf Proces Syst 28(7):779–784

21.

Loutas TH, Roulias D, Georgoulas G (2013) Remaining useful life estimation in rolling bearings utilizing data-driven probabilistic E-support vectors regression[J]. IEEE Trans Reliab 62(4):821–832CrossRef

22.

Wang S, Zhao L, Su X et al. (2014) Prognostics of lithium-ion batteries based on flexible support vector regression[C]. Prognostics and System Health Management Conference. IEEE 317–322.

23.

Benkedjouh T, Medjaher K, Zerhouni N et al (2015) Health assessment and life prediction of cutting tools based on support vector regression [J]. J Intell Manuf 26(2):213–223CrossRef

24.

Chen S, Xin P, Tao L (2014) A method for predicting life of electronic components based on generic algorithm and support vector machine (SVM) [J]. Journal of Northwestern Polytechnical University 32(4):637–641

25.

Lyu W-L, Chang C-C (2016) An image compression method based on block truncation coding and linear regression [J]. Journal of Information Hiding and Multimedia Signal Processing 7(1):198–215

26.

Lee J, Wu F, Zhao W et al (2014) Prognostics and health management design for rotary machinery systems—reviews, methodology and applications [J]. Mech Syst Signal Process 42:314–334CrossRef

27.

Duan WY, Huang LM, Han Y et al (2015) A hybrid AR-EMD-SVR model for the short-term prediction of nonlinear and non-stationary ship motion [J]. Journal of Zhejiang University: Science A 16(7):562–576CrossRef

28.

Wang JE, Qiao JZ (2013) Parameter selection of SVR based on improved K-fold cross validation[J]. Applied Mechanics & Materials 462-463:182–186CrossRef

Title: Failure prognostics of heavy vehicle hydro-pneumatic spring based on novel degradation feature and support vector regression
Authors: Cheng Yang
Ping Song
Xiongjun Liu
Publication date: 18-04-2017
Publisher: Springer London
Published in: Neural Computing and Applications / Issue 1/2019
Print ISSN: 0941-0643
Electronic ISSN: 1433-3058
DOI: https://doi.org/10.1007/s00521-017-2986-8

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