Inverse dynamics based control system for a three-degree-of-freedom flexible arm

IEEE Trans. Robotics Autom. Pub Date : 2003-12-01 DOI:10.1109/TRA.2003.819596

V. F. Batlle, J. A. Somolinos, Andres H. García

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引用次数: 37

Abstract

This article describes a new control scheme designed for a three-degree-of-freedom flexible arm. This arm has been built with light links, has most of its mass concentrated at the tip, and uses a special mechanical configuration to approximately decouple tip motions in spherical coordinates. This configuration facilitates the dynamic modeling and control of the arm. A compliance matrix can be used to model the oscillations of the structure. A consequence of this simple dynamic is that minimum sensing effort is required (only direct motor and tip measurements), and the use of complex observers is avoided because the state of the system can be very easily obtained from these measurements. A two-nested control-loop scheme is used to control the tip position by using joint position and tip acceleration feedbacks. The stability of the controlled system is analytically proven in the case of perfect dynamic modeling. Then, an analysis of stability in the case of modeling errors is carried out, and conditions for local stability are derived. Experimental results are presented for the cases of perturbation control and trajectory tracking. Comparative results between controlled and noncontrolled tip responses are also shown.

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基于逆动力学的三自由度柔性臂控制系统

本文介绍了一种新的三自由度柔性臂控制方案。该机械臂由轻连杆组成，其大部分质量集中在尖端，并使用特殊的机械结构在球坐标中近似解耦尖端运动。这种结构有利于机械臂的动态建模和控制。柔度矩阵可以用来模拟结构的振动。这种简单动态的结果是，最小的传感努力是必需的(仅直接电机和尖端测量)，并避免使用复杂的观察者，因为系统的状态可以很容易地从这些测量中获得。利用关节位置反馈和叶尖加速度反馈，采用双嵌套控制回路控制叶尖位置。在动力学建模完善的情况下，分析证明了被控系统的稳定性。然后，进行了建模误差情况下的稳定性分析，并推导了局部稳定的条件。给出了微扰控制和轨迹跟踪的实验结果。还给出了控制和非控制尖端响应的比较结果。

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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IEEE Trans. Robotics Autom.

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