关键词: 自适应模糊逻辑；高阶滑模控制；操纵稳定性；线控转向系统；CarSim；MATLAB/ Simulink

Abstract: Aiming at the problems of handling stability and lack of roll stability under vehicle steering, the study of nonlinear sliding mode control of front-wheel active steering has certain guiding significance for the study of vehicle driving stability. Adaptive higher-order sliding mode control method combined with Takagi-Sugeno (T-S) fuzzy modeling method is used to construct model parameter observer to obtain tire dynamic parameters in real time, considering the nonlinear change of tire side deflection angle. Through the joint simulation of CarSim and MATLAB/Simulink, two typical working conditions of double-shift line and sinusoidal stagnation are selected to simulate and validate the adaptive higher-order sliding mode control method for the performance indexes of center-of-mass lateral deflection, horizontal pendulum angular velocity, lateral acceleration, etc. The results show that this method can improve the dynamic response performance of steerable by wire system to angle; compared with the traditional sliding mode control strategy, the maximum yaw speed and lateral acceleration are reduced by 22.63% and 5.4%, respectively, which can improve the handling stability of the vehicle.

Key words: Adaptive fuzzy logic; Higher order sliding mode control; Handling stability; Linear steering system; CarSim; MATLAB/Simulink