独立驱动电动轮多轴重型车辆操纵特性调整前馈反馈集成控制

2021 5th CAA International Conference on Vehicular Control and Intelligence (CVCI) Pub Date : 2021-10-29 DOI:10.1109/CVCI54083.2021.9661250

Jiayi Hu, Jianqiu Li, Hang Li, Jiachen Dong, Zunyan Hu, Liangfei Xu, M. Ouyang

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引用次数: 1

摘要

具有独立驱动电动车轮的电动汽车为车辆动力学控制提供了灵活性。针对独立驱动多轴重型汽车，设计了一种控制器，通过外偏航力矩对其操纵特性进行调节。采用层次化控制结构，包括前馈反馈集成的高层控制块、中层控制分配、低层牵引控制系统。研究了多轴车辆的稳定系数，并在自行车模型分析的基础上设计了前馈部分。高级控制的反馈部分采用滑模控制。仿真结果表明，重型车辆的横摆角速度响应可以在较宽的范围内调节。

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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Feedforward and Feedback Integrated Control for Handling Characteristics Adjustment of Multi-axle Heavy-duty Vehicles Using Independent-drive Electric Wheels

Electric vehicles with independent-drive electric wheels provide flexibility in vehicle dynamics control. In this paper, a controller is designed for an independent-drive multi-axle heavy-duty vehicle, aiming at adjusting its handling characteristics by external yaw moment. A hierarchical control structure is adopted, including a feedforward and feedback integrated high-level control block, middle-level control allocation, and low-level traction control system. The stability factor of a multi-axle vehicle is studied, and a feedforward part is designed based on the bicycle model analysis. The sliding mode control is used in the feedback part of the high-level control. Simulation results show that the heavy-duty vehicle’s yaw rate response can be adjusted in a wide range.

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2021 5th CAA International Conference on Vehicular Control and Intelligence (CVCI)

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