Two major roles of the traction control system (TCS) are to guarantee the acceleration performance and directional stability even in extreme road conditions. under which average drivers may not control the car properly, Commercial TCSs use experiential methods such as lookup table and gain-scheduling to achieve proper performance under various road and vehicle conditions, This paper proposes a new slip controller which uses the brake and the throttle actuator simultaneously, To avoid measurement problems and to get a simple structure. the brake controller and the throttle controller are designed using Lyapunov redesign method and multiple sliding mode control. respectively. Through the hybrid use of brake and throttle controllers. the vehicle is insensitive to the variation of the vehicle mass, brake gain and road condition and can achieve the required acceleration performance. The proposed method is validated with simulations based on 15 DOF passenger car model.
[1]
Yuen-Kwok Chin,et al.
Vehicle antilock braking and traction control: a theoretical study
,
1992
.
[2]
M. L. Monaghan.
FUTURE GASOLINE AND DIESEL ENGINES-REVIEW
,
2000
.
[3]
Taketoshi Kawabe,et al.
A sliding mode controller for wheel slip ratio control system
,
1996
.
[4]
Seongho Choi,et al.
Design of Nonlinear Sliding Mode Controller with Pulse Width Modulation for Vehicular Slip Ratio Control
,
2001
.
[5]
Woong-chul Yang,et al.
FUEL CELL ELECTRIC VEHICLES: RECENT ADVANCES AND CHALLENGES-REVIEW
,
2000
.
[6]
Yoshihisa Nomura,et al.
Traction Control (TRC) System for 1987 Toyota Crown
,
1989
.
[7]
J. K. Hedrick,et al.
Automotive Powertrain Modeling for Control
,
1989
.
[8]
Kiyotaka Ise,et al.
The “Lexus” Traction Control (TRAC) System
,
1990
.