International Journal of Automotive Technology

  • 제7권2호
  • /
  • Pages.167-172
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  • 2006
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  • 1229-9138(pISSN)
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  • 1976-3832(eISSN)
한국자동차공학회 (The Korean Society of Automotive Engineers)
권호 표지

VEHICLE DYNAMIC CONTROL ALGORITHM AND ITS IMPLEMENTATION ON CONTROL PROTOTYPING SYSTEM

  • Zhang, Y. (The Institute of Automotive Engineering, Shanghai Jiaotong University) ;
  • Yin, C. (The Institute of Automotive Engineering, Shanghai Jiaotong University) ;
  • Zhang, J. (The Institute of Automotive Engineering, Shanghai Jiaotong University)
  • 발행 : 2006.04.01
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초록

A design of controller for vehicle dynamic control(VDC) and its implementation on the real vehicle were introduced. The controller has been designed using a three-degrees-of-freedom(3DOF) yaw plane vehicle, and the control algorithm was implemented on the vehicle by control prototyping system dSPACE. A hybrid control algorithm, which makes full use of the advantages of robust and fuzzy control, was adopted in the control system. Field test results show that the performance of the vehicle handling dynamics with hybrid controller is improved obviously compared to that without VDC and with simple robust controller on skiddy roads(friction coefficients lower than 0.3).

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참고문헌

  1. Aleksander, H. and Mark, O. B. (2002). Improvements in vehicle through integrated control of chasis systems. Int. J. Vehicle Design, 29, 1/2
  2. Ali, Y. U. and Huei, P. (2004). A study on lateral speed estimation methods. Int. J. Vehicle Autonomous System, 2, 1/2
  3. Bosch (1999). Vehicle Safety Systems for Passenger Cars. ESP Electronic Stability Program Technical Instruction. Edn. Berlin. Germany
  4. Chung, T., Kim, J. and Yi, K. (2004). Human-in-the-loop evaluation of a vehicle stability controller using a vehicle simulator. Int. J. Automotive Technology 5, 2, 109-114
  5. dSPACE webpage, www.dapace.com
  6. Lin, C.-M. and Mon, Y.-J. (2003). Hybrid adaptive fuzzy controllers with application to robotic systems. Fuzzy Sets and Systems, 139, 151?165 https://doi.org/10.1016/S0165-0114(02)00504-3
  7. Motoki, S. and Masao, N. (2001) Yaw-moment control of electric vehicle for improving handling and stability. Japan Society Automotive Engineers Review, 22, 473-480
  8. Masato, A., Yoshio, K., Kazuasa, S., Yasuji, S., and Yoshimi, F. (2001). Side-slip control to stabilize vehicle lateral motion by direct yaw moment. Japan Society Automotive Engineers Review, 22, 413-419
  9. Park, J.-H., Seo, S.-J. and Park, G.-T. (2003). Robust adaptive fuzzy controller for nonlinear system using estimation of bounds for approximation errors. Fuzzy Sets and Systems, 133, 19-36 https://doi.org/10.1016/S0165-0114(02)00137-9
  10. Sylvia, K. R. and Henryk, F. (2003). Robust fuzzy logic control of mechanical systems. Fuzzy Sets and Systems, 133, 77-108 https://doi.org/10.1016/S0165-0114(02)00212-9
  11. Van Zanten, A. T. (2000). Bosch ESP Systems: 5 Years of Experience. Society of Automotive Engineers, Inc. USA
  12. Va n Zanten, A. T., Erhardt, R., Pfaff, G. , Kost, F., Hartmann, U. and Ehret, T. (1996). Control aspects of the Bosch-VDC. AVEC96, 573-607
  13. Yi, K. S., Chung, T. Y. , Kim, J. T. and Yi, S. J. (2003). An investigation into differential braking strategies for vehicle stability control. Proc. Instn. Mech. Engrs. Part D: J. Automobile Engineering 217, 12, 1081-1094 https://doi.org/10.1243/09544070360729428