Vehicle Lateral Stability Management Using Gain-Scheduled Robust Control

Seung-Han You; Joon-Sang Jo; Seungjin Yoo; Jin-Oh Hahn; Kyo Il Lee

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Vehicle Lateral Stability Management Using Gain-Scheduled Robust Control

机译：基于增益调度鲁棒控制的车辆横向稳定性管理

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摘要

This paper deals with the design of a yaw rate controller based on gain-scheduled H{sub}∞ optimal control, which is intended to maintain the lateral stability of a vehicle. Uncertain factors such as vehicle mass and cornering stiffness in the vehicle yaw rate dynamics naturally call for the robustness of the feedback controller and thus H{sub}∞ optimization technique is applied to synthesize a controller with guaranteed robust stability and performance against the model uncertainty. In the implementation stage, the feed-forward yaw moment by driver's steer input is estimated by the disturbance observer in order to determine the accurate compensatory moment. Finally, HILS results indicate that the proposed yaw rate controller can satisfactorily improve the lateral stability of an automobile.

机译：本文研究了基于增益调度的H {sub}∞最优控制的横摆率控制器的设计，该控制器旨在保持车辆的横向稳定性。车辆偏航角速度动力学中的不确定因素（例如车辆质量和转弯刚度）自然要求反馈控制器具有鲁棒性，因此H {sub}∞优化技术可用于合成具有保证的鲁棒稳定性和针对模型不确定性的性能的控制器。在实施阶段，由扰动观测器估算驾驶员转向输入的前馈横摆力矩，以确定准确的补偿力矩。最后，HILS结果表明，所提出的横摆率控制器可以令人满意地提高汽车的横向稳定性。

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来源
《Journal of Mechanical Science and Technology》 |2006年第11期|共16页
作者
Seung-Han You; Joon-Sang Jo; Seungjin Yoo; Jin-Oh Hahn; Kyo Il Lee;
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正文语种 eng
中图分类机械学（机械设计基础理论）;
关键词
Vehicle Stability Management; Yaw Rate Control; H{sub}∞ Control; Robust Performance; Gain Scheduling; Disturbance Observer; Brake Force Distribution;

机译：车辆稳定性管理;横摆率控制;H {sub}∞控制;鲁棒性能;增益调度;扰动观测器;制动力分配;

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1. Vehicle Lateral Stability Management Using Gain-Scheduled Robust Control [J] . Seung-Han You, Joon-Sang Jo, Seungjin Yoo, Journal of Mechanical Science and Technology . 2006,第11期

机译：基于增益调度鲁棒控制的车辆横向稳定性管理
2. Robust gain-scheduled output feedback yaw stability control for in-wheel-motor-driven electric vehicles with external yaw-moment [J] . Jin XianJian, Yin Guodong, Zeng Xiaohua, Journal of the Franklin Institute . 2018,第18期

机译：带有偏航力矩的轮毂电机驱动电动汽车的鲁棒增益预定输出反馈偏航稳定性控制
3. A Robust Control Method for Lateral Stability Control of In-Wheel Motored Electric Vehicle Based on Sideslip Angle Observer [J] . Wang Yaxiong, Kang Feng, Wang Taipeng, Shock and vibration . 2018,第PTa2期

机译：基于侧滑角观测器的轮毂电动汽车横向稳定性控制的鲁棒控制方法
4. Lateral Stability Improvement of In-Wheel-Motor-Driven Electric Vehicles Using Gain-scheduled Robust Control [C] . Xianjian Jin, Guodong Yin, Nan Chen Chinese Control and Decision Conference . 2019

机译：利用增益调度鲁棒控制提高轮毂电机驱动电动汽车的横向稳定性
5. Robust control design of gain-scheduled controllers for nonlinear processes. [D] . Gao, Jianying. 2004

机译：非线性过程的增益调度控制器的鲁棒控制设计。
6. Robust Position Control of an Over-actuated Underwater Vehicle under Model Uncertainties and Ocean Current Effects Using Dynamic Sliding Mode Surface and Optimal Allocation Control [O] . Mai The Vu, Tat-Hien Le, Ha Le Nhu Ngoc Thanh, 2021

机译：通过动态滑动模式表面和最优分配控制的模型不确定性和海洋电流效应下的过于驱动的水下车辆的鲁棒位置控制
7. Robust Stability Analysis of a Fuzzy Vehicle Lateral Control System Using Describing Function Method [O] . Jau-Woei Perng, Bing-Fei Wu, Tien-Yu Liao, -1

机译：基于描述函数法的模糊车辆横向控制系统鲁棒稳定性分析
8. Robust Gain-Scheduled Nonlinear Control Design for Stability and Performance [R] . Balakrishnan, V. 2000

机译：稳定性和性能的鲁棒增益非线性控制设计

Vehicle Lateral Stability Management Using Gain-Scheduled Robust Control

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