TY - GEN
T1 - Research and comparison of control methods of vehicular DYC system
AU - Wang, Weida
AU - Ding, Nenggen
AU - Yu, Guizhen
AU - Zou, Hongming
PY - 2009
Y1 - 2009
N2 - Direct Yaw-Moment Control(DYC) can enhance the vehicle lateral stability significantly. Studying its control methods is a hot spot of vehicle dynamics. Based on the in-depth study of the vehicular handling dynamics and the advanced control theory, the PID, fuzzy and intelligent integral fuzzy-PID controllers for DYC system are designed and simulated with the vehicle model. The fuzzy control theory has great superiority in some systems that need a lot of experiment knowledge and experience such as DYC. The structure of fuzzy-PID controller is proposed by Bialkowski in 1983 and it is proved that it can eliminate the error of fuzzy system. The intelligent integral is introduced to avoid the limitation of normal integral. Simulation results of the controllers are compared and indicate that all the controllers can realize the effective control of DYC, and have their own characteristics. Intelligent integral fuzzy-PID has more rapid response and higher control precision, and has much better applying prospect. Intelligent integral module can reduce the side effect of integral function, so the control effect of fuzzy-PID is further improved. The research provides important basis for applying intelligent integral fuzzy-PID to an actual DYC system.
AB - Direct Yaw-Moment Control(DYC) can enhance the vehicle lateral stability significantly. Studying its control methods is a hot spot of vehicle dynamics. Based on the in-depth study of the vehicular handling dynamics and the advanced control theory, the PID, fuzzy and intelligent integral fuzzy-PID controllers for DYC system are designed and simulated with the vehicle model. The fuzzy control theory has great superiority in some systems that need a lot of experiment knowledge and experience such as DYC. The structure of fuzzy-PID controller is proposed by Bialkowski in 1983 and it is proved that it can eliminate the error of fuzzy system. The intelligent integral is introduced to avoid the limitation of normal integral. Simulation results of the controllers are compared and indicate that all the controllers can realize the effective control of DYC, and have their own characteristics. Intelligent integral fuzzy-PID has more rapid response and higher control precision, and has much better applying prospect. Intelligent integral module can reduce the side effect of integral function, so the control effect of fuzzy-PID is further improved. The research provides important basis for applying intelligent integral fuzzy-PID to an actual DYC system.
KW - DYC control methods
KW - Fuzzy control
KW - Fuzzy-PID of bialkowski structure
KW - Intelligent integral
UR - http://www.scopus.com/inward/record.url?scp=77949686151&partnerID=8YFLogxK
U2 - 10.1109/CISE.2009.5362660
DO - 10.1109/CISE.2009.5362660
M3 - Conference contribution
AN - SCOPUS:77949686151
SN - 9781424445073
T3 - Proceedings - 2009 International Conference on Computational Intelligence and Software Engineering, CiSE 2009
BT - Proceedings - 2009 International Conference on Computational Intelligence and Software Engineering, CiSE 2009
T2 - 2009 International Conference on Computational Intelligence and Software Engineering, CiSE 2009
Y2 - 11 December 2009 through 13 December 2009
ER -