自主地面车辆车道保持系统鲁棒性分析

2017 IEEE International Conference on Imaging, Vision & Pattern Recognition (icIVPR) Pub Date : 1900-01-01 DOI:10.1109/ICIVPR.2017.7890875

Sharmin Ahmed, W. Rahiman

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引用次数: 1

摘要

动态系统的鲁棒性分析是当前研究的热点之一。在众多特征中，地面车辆的车道保持因其在乘用车中避免事故和拥堵的巨大需求而引起了研究人员的关注。本文对地面车辆数学模型和模型预测控制器进行了鲁棒性仿真分析。转向角和道路曲率分别作为车辆的控制输入和干扰输入。为了进行鲁棒性分析，在车辆模型中加入参数不确定性，将路面轮胎摩擦系数和前视距离作为不确定参数。MATLAB-Simulink软件仿真结果表明，该模型预测控制器在道路轮胎摩擦系数和前视距离不确定的情况下具有足够的鲁棒性。

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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Robustness analysis of lane keeping system for autonomous ground vehicle

Robustness analysis of dynamic system is one of the major research concerns in present times. Among many features, lane keeping of ground vehicle has caught the attention of researchers for its immense need in the passenger cars to avoid accidents and congestion. In this paper, robustness analysis of a mathematical model of ground vehicle along with a model predictive controller is simulated. The steering angle and the road curvature acts as the control input and the disturbance input of the vehicle respectively. For robustness analysis, parametric uncertainty is added in the vehicle model, where road-tire friction coefficient and look ahead distance are assumed as uncertain parameters. MATLAB-Simulink software simulation results show that that the model predictive controller of the lane keeping system is robust enough in the presence of uncertain road-tire friction coefficient and look ahead distance.

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来源期刊

2017 IEEE International Conference on Imaging, Vision & Pattern Recognition (icIVPR)

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