Trajectory Tracking Control for Connected Vehicle Platoon under the Curved Road

Songyuan Hua, Yongfu Li, Shuyou Yu
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Abstract

This study addresses the conundrum of the trajectory tracking control for a connected vehicle (CV) platoon on the straight road and curved road. To be specific, the communication topology of bidirectional leader-follower is used to describe the vehicles' communication connection in the vehicle- vehicle/vehicle- to-infrastructure (V2X) environment. Then, a nonlinear state feedback control algorithm for follower vehicles is put forward through merging the phenomenon of car-following interactions, the spacing error, velocity difference and angular difference in relation to the leader vehicle. The proposed algorithm's stability is verified by means of Lyapunov technique. And then, simulation experiments under two scenarios: the leader vehicle runs on the straight road and curved road, respectively, and the followers run after the leader vehicle. The numerical simulation results prove the effectiveness of the proposed control algorithm.
弯曲道路下联网车辆队列轨迹跟踪控制
本文研究了网联车辆在直线道路和弯曲道路上的轨迹跟踪控制问题。具体而言,采用双向leader-follower通信拓扑来描述车辆-车辆/车辆-基础设施(V2X)环境下的车辆通信连接。在此基础上,提出了一种非线性的跟随车辆状态反馈控制算法,该算法综合考虑了跟随车辆相互作用现象、与前导车辆的间距误差、速度差和角差。通过李亚普诺夫技术验证了该算法的稳定性。然后,分别在领队车辆在直道和弯道上行驶,跟随车辆在领队车辆后行驶两种情况下进行仿真实验。数值仿真结果证明了所提控制算法的有效性。
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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