Observer based output feedback repetitive learning control of robotic manipulators

IF 2.2 4区 计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS
Kadriye Merve Dogan, Enver Tatlicioglu, Erkan Zergeroglu, Kamil Cetin
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引用次数: 0

Abstract

This work tackles the tracking control problem of robotic manipulators where the robot dynamics contains uncertain parameters and joint velocity measurements are not available. Specifically when the robotic manipulator is required to perform a periodic task repetitively, as in most industrial applications, a repetitive learning controller is proposed that does not require joint velocity measurements and can compensate the uncertainties of the robot dynamical parameters and additive disturbances caused due to the periodic joint motion. The proposed solution is achieved via the use of a novel learning component in the controller design in conjunction with a novel model-free joint velocity observer design. The stability of the closed-loop system and the convergence of both the joint position tracking error and the joint velocity observation error to the origin are guaranteed via Lyapunov based arguments. Experimental results performed on a 2 degree of freedom robot manipulator are presented to demonstrate the performance of the proposed observer–controller couple.

Abstract Image

基于观测器的机器人机械手输出反馈重复学习控制
这项研究解决的是机器人动力学包含不确定参数且无法测量关节速度的情况下机器人机械手的跟踪控制问题。特别是当机器人机械手需要重复执行周期性任务时(如在大多数工业应用中),提出了一种重复学习控制器,它不需要关节速度测量值,并能补偿机器人动态参数的不确定性和周期性关节运动造成的附加干扰。所提出的解决方案是通过在控制器设计中使用新颖的学习组件,并结合新颖的无模型关节速度观测器设计来实现的。通过基于 Lyapunov 的论证,保证了闭环系统的稳定性以及关节位置跟踪误差和关节速度观测误差对原点的收敛性。本文介绍了在一个 2 自由度机器人操纵器上进行的实验结果,以证明所提出的观测器-控制器耦合的性能。
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来源期刊
IET Control Theory and Applications
IET Control Theory and Applications 工程技术-工程:电子与电气
CiteScore
5.70
自引率
7.70%
发文量
167
审稿时长
5.1 months
期刊介绍: IET Control Theory & Applications is devoted to control systems in the broadest sense, covering new theoretical results and the applications of new and established control methods. Among the topics of interest are system modelling, identification and simulation, the analysis and design of control systems (including computer-aided design), and practical implementation. The scope encompasses technological, economic, physiological (biomedical) and other systems, including man-machine interfaces. Most of the papers published deal with original work from industrial and government laboratories and universities, but subject reviews and tutorial expositions of current methods are welcomed. Correspondence discussing published papers is also welcomed. Applications papers need not necessarily involve new theory. Papers which describe new realisations of established methods, or control techniques applied in a novel situation, or practical studies which compare various designs, would be of interest. Of particular value are theoretical papers which discuss the applicability of new work or applications which engender new theoretical applications.
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