1673-159X

CN 51-1686/N

基于分布式估计器的多机器人系统的追踪控制

Distributed Estimator-Based Tracking Control of Multi-Robot Systems

  • 摘要: 非完整轮式移动机器人在领导者−跟随者一致性控制中,涉及到2个关键的问题:跟随者可能无法获取领导者的状态信息;领导者与跟随者需要花费很长时间才能实现一致性。为此,文章提出了基于分布式估计器的固定时间下的控制器:首先设计一种分布式固定时间估计器,使得各跟随者能够在有限时间内且与初始状态无关的条件下准确估计出领导者的不可测状态;随后,借助矩阵分析的理论与反步法构建出系统的固定时间下的控制器,控制一组非完整轮式移动机器人在预设的固定时间内实现状态一致。数值仿真结果表明该方案是有效的。

     

    Abstract: This study addressed two key challenges in the leader-following consensus control of nonholonomic wheeled mobile robots: the potential inaccessibility of the leader's state information to followers, and the prolonged time required to achieve consensus. To address these issues, a fixed-time controller based on a distributed estimator was proposed. First, a distributed fixed-time estimator was designed. This enabled each follower to accurately estimate the unmeasurable state of the leader within a fixed time, with an upper bound independent of the initial estimation errors. Subsequently, utilizing matrix analysis theory and the backstepping method, a fixed-time controller was developed for the system, effectively achieving state synchronization for a group of nonholonomic wheeled mobile robots within a fixed time. Finally, numerical simulation results validated the overall effectiveness of the proposed approach.

     

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