Acceleration Based Force-Impedance Control of a 6-dof Parallel Robotic Manipulator

2006 IEEE International Conference on Computational Cybernetics Pub Date : 2006-08-01 DOI:10.1109/ICCCYB.2006.305726

A. Lopes, F. Almeida

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引用次数: 6

Abstract

An acceleration based force-impedance controller is presented in this paper. The proposed control strategy is applied to a six-dof parallel robotic mini-manipulator: the robotic controlled impedance device (RCID). The control strategy involves three cascade controllers: an inner acceleration controller, built as a set of six single-input- single-output (SISO) acceleration controllers (one per manipulator axis), an impedance task-space controller, and an outer force controller. The proposed control strategy enables two kinds of manipulator behaviour: force limited impedance control and position limited force control. The type of behaviour only depends on the chosen manipulator trajectories. The RCID may be used as a force-impedance controlled auxiliary device, coupled in series with a position controlled industrial robot, or as a stand-alone force feedback display, that may be used as a master manipulator in master-slave telemanipulated systems or as a haptic device interacting with virtual environments. Experimental results of the RCID used as an auxiliary device working coupled to an industrial manipulator are presented.

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基于加速度的六自由度并联机械臂力-阻抗控制

提出了一种基于加速度的力阻抗控制器。将所提出的控制策略应用于六自由度并联微型机械臂——机器人控制阻抗装置(RCID)。控制策略包括三个级联控制器:一个内部加速度控制器，由六个单输入-单输出(SISO)加速度控制器组成(每个机械臂轴一个)，一个阻抗任务空间控制器和一个外力控制器。该控制策略实现了两种机械臂行为:力受限阻抗控制和位置受限力控制。行为类型仅取决于所选择的操纵器轨迹。RCID可以作为力阻抗控制的辅助设备，与位置控制的工业机器人串联使用，也可以作为独立的力反馈显示器，可以用作主从远程操纵系统中的主机械手，也可以作为与虚拟环境交互的触觉设备。给出了RCID作为工业机械臂辅助装置耦合工作的实验结果。

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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2006 IEEE International Conference on Computational Cybernetics

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