基于部分解耦设计的四轮转向车辆操纵稳定性控制策略

2010 Third International Joint Conference on Computational Science and Optimization Pub Date : 2010-05-28 DOI:10.1109/CSO.2010.67

Bin Yang, M. Wan, Q. Sun

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引用次数: 2

摘要

为了得到四轮转向车辆的转向控制结构，本文采用了横向动力学的线性模型。通过引入车辆侧滑控制和横摆角速度控制解耦，将更精确的侧滑和横摆角速度控制器用于四轮转向车辆的横向动力学模型，侧滑和横摆角速度控制器是基于横向动力学模型和前后转向角相结合的线性多变量。通过仿真实例验证了所设计控制器的鲁棒性。实证结果表明，基于部分解耦设计的控制器具有良好的鲁棒性。四轮转向系统具有良好的操纵鲁棒性和稳定性，可以有效地抑制外倾侧干扰，从而解决主动滚动操纵控制和跟踪问题。

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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Control Strategy for Four-Wheel Steering Vehicle Handling Stability Based on Partial Decoupling Design

In order to obtain a new steering control structure for vehicles equipped with four-wheel steering system, a linear model of the lateral dynamics is used in this paper. By introducing vehicle sideslip control and yaw rate control decoupling, a more accurate sideslip and yaw rate controller is used for lateral dynamics model of four-wheel steering vehicle, the sideslip and yaw rate controller is based on a linear multivariable combined with lateral dynamics model and the front and rear steering angles. For illustration, a simulation example is utilized to show the robustness of the new designed controller. Empirical results show that the controller based on partial decoupling design has good robustness. The four-wheel steering system with good handling robustness stability can effectively restrain exoteric lateral interference and thus active rolling handling control and tracking performance are solved.

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2010 Third International Joint Conference on Computational Science and Optimization

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