ENG  Vol.1 No.1 , June 2009
Skyhook Surface Sliding Mode Control on Semi-Active Vehicle Suspension System for Ride Comfort Enhancement
Author(s) Yi Chen
Abstract
A skyhook surface sliding mode control method was proposed and applied to the control on the semi-active vehicle suspension system for its ride comfort enhancement. A two degree of freedom dynamic model of a vehicle semi-active suspension system was given, which focused on the passenger’s ride comfort perform-ance. A simulation with the given initial conditions has been devised in MATLAB/SIMULINK. The simula-tion results were showing that there was an enhanced level of ride comfort for the vehicle semi-active sus-pension system with the skyhook surface sliding mode controller.

Cite this paper
nullY. Chen, "Skyhook Surface Sliding Mode Control on Semi-Active Vehicle Suspension System for Ride Comfort Enhancement," Engineering, Vol. 1 No. 1, 2009, pp. 23-32. doi: 10.4236/eng.2009.11004.
References

[1]   K. Yi, M. Wargelin, and K. Hedrick, “Dynamic tire force control by semiactive suspensions,” Journal of Dynamic Systems, Measurement, and Control, Vol. 115, No. 3, pp. 465-474, 1993.

[2]   N. Jalili, “A comparative study and analysis of semi-active vibration-control systems,” Journal of Vibration and Acoustics, Vol. 124, No. 4, pp. 593-605, 2002.

[3]   R. Stanway, “The development of force actuators using ER and MR fluid technology,” Actuator Technology: Current Practice and New Developments, IEE Colloquium on (Digest No: 1996/110), Vol. 6, pp. 1-5, 1996.

[4]   L. Caracoglia and N. P. Jones, “Passive hybrid technique for the vibration mitigation of systems of interconnected stays,” Journal of Sound and Vibration, Vol. 307, No. 3-5, pp. 849-864, 2007.

[5]   Q. Zhou, S. R. K. Nielsen, and W. L. Qu, “Semi-active control of shallow cables with magnetorheological dampers under harmonic axial support motion,” Journal of Sound and Vibration, Vol. 311, No. 3-5, pp. 683-706, 2008.

[6]   S. V. Emelyanov, “Variable structure control systems (in Russian),” Moscow: Nauka, 1967.

[7]   Y. Itkis, “Control systems of variable structure,” New York: Wiley, 1976.

[8]   V. A. Utkin, “Sliding modes and their application in variable structure systems,” Moscow: Nauka (in Russian), 1978.

[9]   J. Y. Hung, W. Gao, and J. C. Hung, “Variable structure control: A survey,” IEEE Transactions on Industrial Electronics, pp. 2-22, 1993.

[10]   L. A. Zadeh, “Fuzzy sets,” Information and Control, Vol. 8, No. 3, pp. 338–353, 1965.

[11]   K. M. Passino and S. Yurkovich, “Fuzzy control,” Addison Wesley Longman, Menlo Park, CA, 1998.

[12]   J. J. E. Slotine and W. P. Li, “Applied nonlinear control,” Prentice-Hall International, 1991.

[13]   D. C. Karnopp, M. J. Crosby, and R. A. Harwood, “Vibration control using semi-active force generators,” Journals of Engineering for Industry, Transactions of the ASME, Vol. 94, pp. 619-626, 1974.

[14]   H.-S. Kima and P. N. Roschke, “Design of fuzzy logic controller for smart base isolation system using genetic algorithm,” Engineering Structures, Vol. 28, No. 1, pp. 84-96, 2006.

[15]   S. M. Savaresi, E. Silani, and S. Bittanti, “Acceleration-Driven-Damper (ADD): An optimal control algorithm for comfort-oriented semiactive suspensions,” ASME Transactions: Journal of Dynamic Systems, Measurement and Control, Vol. 127, No. 2, pp. 218-229, 2005.

[16]   J. J. E. Slotine, “Tracking control of non-linear systems using sliding surfaces with application to robot manipulations,” PhD Dissertation, Laboratory for Information and Decision Systems, Massachusetts Institute of Technology, 1982.

[17]   E. M. Elbeheiry and D. C. Karnopp, “Optimal control of vehicle random vibration with constrained suspension deflection,” Journal of Sound and Vibration, Vol. 189, No. 5, pp. 547-564, 1996.

[18]   Y. Liu, H. Matsuhisaa, and H. Utsunoa, “Semi-active vibration isolation system with variable stiffness and damping control,” Journal of Sound and Vibration, Vol. 313, No. 1-2, pp. 16-28, 2008.

[19]   K. Ramji, A. Gupta, V. H. Saran, V. K. Goel, and V. Kumar, “Road roughness measurements using PSD approach,” Journal of the Institution of Engineers, Vol. 85, pp. 193-201, 2004.

[20]   International Organization for Standardization, “Mechanical vibration and shock – evaluation of human exposure to whole-body vibration – Part 1: General requirements,” ISO 2631-1, 1997.

[21]   Y. Chen and M. P. Cartmell, “Multi-objective optimisation on motorised momentum exchange tether for payload orbital transfer,” IEEE Congress on Evolutionary Computation, pp. 987-993, September 25-28, 2007.

 
 
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