变速极限工况下分布式电动汽车稳定性纵横协调控制OA
Longitudinal-lateral coordinated stability control of distributed electric vehicles under variable speed limit conditions
针对传统定速控制方法在山区极限工况下适应性不足的问题,提出一种基于车辆纵横向耦合特性的变速协同控制策略.该策略采用分层架构:上层通过稳态评估模型为决策提供动态基准;中层结合双级模型预测控制协调四轮滑移率、主动前轮转向与直接横摆力矩,解决纵横向控制冲突并输出总驱动/横摆力矩;下层基于加权最小二乘法实现转矩的动态优化分配.最后,通过Simulink与CarSim仿真平台,对所设计的纵横协调控制策略搭建仿真模型,并模拟多种复杂道路工况进行验证,结果表明该控制策略能够显著提升分布式电动汽车在变速极限工况下的行驶稳定性.
To overcome the limitations of conventional constant-speed control methods in extreme mountainous conditions,this paper proposes a variable-speed coordinated longitudinal-lateral control strategy based on the coupling characteristics of vehicle dynamics.The strategy adopts a hierarchical control structure.The upper layer develops a steady-state evaluation model to provide decision support for subsequent control layers.The middle layer primarily utilizes a two-level model predictive control(MPC)framework to coordinate potential conflicts among longitudinal four-wheel slip rates,lateral active front steering(AFS)and direct yaw control(DYC),and outputs the total driving torque and yaw moment.The lower layer employs a weighted least squares method to optimally distribute torque based on the vehicle's operating state.A simulation model is constructed using Simulink and CarSim to evaluate performance under various complex road conditions.Results demonstrate that the proposed strategy significantly improves the driving stability of distributed electric vehicles under variable speed extreme conditions.
赵石凤;王文杰;舒然;李礼;舒红宇
重庆大学 机械与运载工程学院,重庆 400044重庆大学 机械与运载工程学院,重庆 400044重庆大学 机械与运载工程学院,重庆 400044重庆大学 机械与运载工程学院,重庆 400044重庆大学 机械与运载工程学院,重庆 400044
交通工程
变速极限工况分布式驱动纵横协调控制分层控制
variable speed limit conditionsdistributed drivelongitudinal-lateral coordinated controlhierarchical control
《重庆大学学报》 2026 (5)
60-77,18
国家自然科学基金资助项目(52372376)重庆市研究生科研创新项目(CYB240012).Supported by National Natural Science Foundation of China(52372376),and Graduate Research and Innovation Foundation of Chongqing(CYB240012).
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