论文信息 - CORNERING STIFFNESS AND SLIP ANGLE ESTIMATION OF ELECTRIC VEHICLE FOR DIRECT YAW-MOMENT CONTROL

CORNERING STIFFNESS AND SLIP ANGLE ESTIMATION OF ELECTRIC VEHICLE FOR DIRECT YAW-MOMENT CONTROL

Abstract In this paper, three estimation methods of cornering stiffness are proposed based on yaw-moment observer (YMO). First, a simple method is developed under the assumption that cornering stiffness coefficients of front and rear wheels are identical. A novel direct yaw-moment control (DYC) with this estimation is proposed for electric vehicles with in-wheel motors. Second, a sophisticated method is introduced which can identify the front and rear cornering stiffness independently as well as it can estimate the side-slip angle of vehicle. Third, the observability of side-slip angle is enhanced by the accelerometer of vehicle lateral motion. Simulation and experiments are carried out to show the advantages of proposed methods.

Hiroshi Fujimoto | Naoki Takahashi

[1] H. Fujimoto,et al. Motion control and road condition estimation of electric vehicles with two in-wheel motors , 2004, Proceedings of the 2004 IEEE International Conference on Control Applications, 2004..

[2] N. Takahashi,et al. Motion control of electric vehicle based on cornering stiffness estimation with yaw-moment observer , 2006, 9th IEEE International Workshop on Advanced Motion Control, 2006..

[3] Uwe Kiencke,et al. Observation of Lateral Vehicle Dynamics , 1996 .

[4] H. Fujimoto,et al. Multirate adaptive robust control for discrete-time non-minimum phase systems and application to linear motors , 2005, IEEE/ASME Transactions on Mechatronics.

[5] Jürgen Ackermann,et al. Robust control prevents car skidding , 1997 .

[6] Yoichi Hori,et al. Motion Control of Electric Vehicle Utilizing Fast Torque Response of Electric Motor , 1999 .