Direct yaw-moment control of electric vehicle based on cornering stiffness estimation

Author

Fujimoto, Hiroshi ; Tsumasaka, Akio ; Noguchi, Toshihiko

Author_Institution

Div. of Electr. & Comput. Eng., Yokohama Nat. Univ., Japan

fYear

2005

fDate

6-10 Nov. 2005

Abstract

In this paper, novel direct yaw-moment control (DYC) with road condition estimation and anti-slip control is proposed for electric vehicles. An inner-loop observer controls the vehicle traction, and an outer-loop controller stabilizes the yawing motion. An immeasurable parameter known as cornering stiffness is estimated from the detected yaw-rate, steering angle, wheel speed and yaw-moment observer output in real time. Thus, the accurate control input can be generated with the estimated parameters. The proposed adaptive control is compared with a conventional robust control on dry and snowy terrain conditions. The experimental results show that the yaw-rate error is properly attenuated by the proposed control algorithm.

Keywords

adaptive control; electric vehicles; observers; steering systems; wheels; adaptive control; antislip control; cornering stiffness estimation; direct yaw-moment control; electric vehicle traction; observer control; road condition estimation; robust control; steering angle; wheel speed; Adaptive control; Electric vehicles; Hybrid electric vehicles; Motion control; Parameter estimation; Roads; Robust control; Traction motors; Vehicle driving; Wheels;

fLanguage

English

Publisher

ieee

Conference_Titel

Industrial Electronics Society, 2005. IECON 2005. 31st Annual Conference of IEEE

Print_ISBN

0-7803-9252-3

Type

conf

DOI

10.1109/IECON.2005.1569321

Filename

1569321