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能量相平面中集成底盘控制的多执行器配置扩展稳定域与效能量化

Extended Stability Envelopes and Effectiveness Quantification for Integrated Chassis Control With Multiple Actuator Configurations in the Energy Phase Plane

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2025
被引 1
ABS 3

中文导读

提出一种在能量相平面中分析集成底盘扩展稳定域的方法,量化不同执行器组合(如主动前/后转向、扭矩矢量控制)对车辆侧向动力学的影响,为协调控制提供依据。

Abstract

The emerged integrated chassis is playing an increasingly pivotal role in enhancing vehicle stability, which typically needs estimation of the stability envelope and proper coordination strategy for chassis controller design. The conventional stability envelope determined in phase plane ensure vehicle self-stability, while it neglects the influence of chassis actuators. To play out full performance of integrated chassis, this study proposes a novel extended stability envelope analysis method to quantify the effect of different chassis actuator combinations on vehicle lateral dynamic. In energy phase plane, the state change direction with influence of control inputs are employed to judge whether a given state will go beyond the tire’s grip limit. Accordingly extended stability envelopes of some typical actuator combinations, i.e., active front steering (AFS) and active rear steering (ARS), AFS and torque vectoring control (TVC), ARS and TVC, are determined. Meanwhile, principle to quantify the overlapping effectiveness range and unique effectiveness range between ARS and TVC is introduced, accordingly effectiveness factors used for coordination control are discussed. In summary, the proposed method in this article has considerable potential for coordination control of integrated chassis, by providing comprehensive analysis method to estimate the extended stability boundary and quantify the effectiveness range with influence of actuators taken into account.

车辆工程底盘控制稳定性分析执行器协调