MPC-based Torque Distribution for Planar Motion of Four-wheel Independently Driven Electric Vehicles: Considering Motor Models and Iron Losses

Yiyan Su;Deliang Liang;Peng Kou
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Abstract

The most critical obstacle for four-wheel independently driven electric vehicles (4WID-EVs) is the driving range. Being the actuators of 4WID-EVs, motors account for its major power consumption. In this sense, by properly distributing torques to minimize the power consumption, the driving range of 4WID-EV can be effectively improved. This paper proposes a model predictive control (MPC)-based torque distribution scheme, which minimizes the power consumption of 4WID-EVs while guaranteeing its tracking performance of planar motions. By incorporating the motor model considering iron losses, the optimal torque distribution can be achieved without an additional torque controller. Also, for this reason, the proposed control scheme is computationally efficient, since the power consumption term to be optimized, which is expressed as the product of the motor voltages and currents, is much simpler than that derived from the efficiency map. With reasonable simplification and linearization, the MPC problem is converted to a quadratic programming problem, which can be solved efficiently. The simulation results in MATLAB and CarSim co-simulation environments demonstrate that the proposed scheme effectively reduces power consumption with guaranteed tracking performance.
基于MPC的四轮独立驱动电动汽车平面运动转矩分布:考虑电机模型和铁损耗
四轮独立驱动电动汽车(4WID EV)最关键的障碍是续航里程。作为4WID电动汽车的执行器,电机占其主要功耗。从这个意义上讲,通过适当分配扭矩以最大限度地降低功耗,可以有效地提高4WID-EV的行驶里程。本文提出了一种基于模型预测控制(MPC)的转矩分配方案,该方案在保证4WID电动汽车平面运动跟踪性能的同时,最大限度地降低了其功耗。通过结合考虑铁损的电机模型,可以在没有额外扭矩控制器的情况下实现最佳扭矩分配。同样,由于这个原因,所提出的控制方案在计算上是有效的,因为要优化的功耗项(其表示为电动机电压和电流的乘积)比从效率映射导出的功耗项简单得多。通过合理的简化和线性化,将MPC问题转化为二次规划问题,可以有效地求解。在MATLAB和CarSim联合仿真环境中的仿真结果表明,该方案在保证跟踪性能的前提下,有效地降低了功耗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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