欠驱动水面机器人变周期全局渐近镇定控制  被引量:3

Global asymptotic stabilization control with variable periods for underactuated surface vessels

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作  者:张鹏飞[1] 郭戈[1] ZHANG Peng-fei;GUO Ge(Department of Automation,Dalian Maritime University,Dalian Liaoning 116026,China)

机构地区:[1]大连海事大学自动化系

出  处:《控制理论与应用》2019年第5期746-752,共7页Control Theory & Applications

基  金:国家自然科学基金项目(61573077,61273107)资助~~

摘  要:为了实现欠驱动水面机器人的全局渐近镇定,首先借助微分同胚变换,将欠驱动水面机器人的镇定问题转化成对由两个串级子系统构成的二阶欠驱动系统的镇定问题.针对转换后的系统,本文提出一种光滑的变周期控制方法,以实现对该系统的全局渐近镇定.与已有文献中控制律使用常数周期的方法相比,本文方法根据系统状态实时调整控制律周期,从而提高系统在原点附近的收敛速率.随后,基于上述方法,给出了水面机器人变周期控制算法,实现原系统的全局渐近镇定.最后,仿真对比结果验证所提变周期控制方法的有效性.This paper investigates the problem of global asymptotic stabilization of the underactuated surface vessel. By introducing a diffeomorphism transformation, the stabilization of the underactuated surface vessel is converted into the stabilization of the second order underactuated system consisting of two cascade connected subsystems. For the transformed system, a smooth control method with variable periods is presented to ensure the global asymptotic convergence. Compared with the methods using constant periods in previous works, this method improves the convergence rate of the system near the origin by adjusting the periods based on the system states in real time. Then, on this basis, a control algorithm with variable periods for underactuated surface vessels is presented to globally asymptotically stabilize the original system. At last, simulations are given to demonstrate the effectiveness of the presented method.

关 键 词:欠驱动水面机器人 变周期控制 全局稳定 渐近稳定 

分 类 号:TP242[自动化与计算机技术—检测技术与自动化装置]

 

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