Direct Yaw Moment Control for Distributed Drive Electric Vehicles Based on Full-Order Terminal Sliding Mode

Distributed Drive Electric Vehicles (DDEVs), as a significant development form of electric vehicles, have garnered considerable focus owing to their excellent energy utilization efficiency and the capability for flexible torque distribution. However, DDEVs still face numerous challenges in practical applications, particularly in the coordinated control of hub motors and system stability. This paper focuses on the whole-vehicle control technology and distributed control theory of DDEVs and researches the active safety function of Direct Yaw-moment Control (DYC): acceleration and turning. A full-order terminal sliding mode controller is utilized to suppress the chattering of sliding mode control and to reduce torque fluctuations in the output. Results show that the proposed method can enhance the vehicle’s yaw stability and driving safety with the linear sliding mode.