基于阻抗控制从机的时延双边遥操作性能分析

J. Rebelo, A. Schiele
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引用次数: 2

摘要

最近开发的阻抗控制机器人比传统的工业机器人更适合执行类人接触任务。然而,在时滞双边遥操作中,使用该装置作为从机时,系统的性能仍然是未知的。本文的目的是分析一种由阻抗型主设备指挥阻抗控制的从设备的四通道延时双边远程操作系统的性能。利用新引入的自由空气反射阻尼判据,表明当从机处于自由空气状态时,人类操作者与系统交互时感受到的阻尼取决于局部控制器参数,并随时滞线性增加,其因子与主从比例控制器增益有关。系统的透明性分析表明,在不受时滞或控制器参数影响的情况下,系统向操作者传递了与环境刚度相等的刚度。在1自由度主从远程操作系统上进行了实验验证,结果表明,对于30 ms以内的时延值,所提出的准则能以5%的精度逼近所识别的阻尼。实验结果还强调,在自由空气和刚性接触之间的过渡中,呈现给操作员的阻抗低于实际环境的阻抗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance analysis of time-delay bilateral teleoperation using impedance-controlled slaves
Recently developed impedance-controlled robots are better suited than conventional industrial robots for executing human-like contact tasks. However, performance of a system when using such device as a slave in time-delay bilateral teleoperation is still unknown. It is the goal of this paper to analyse the performance of a 4-channel time-delay bilateral teleoperation system with an impedance-type master device commanding an impedance-controlled slave. Using the newly introduced reflected damping in free-air criterion, it is shown that the damping felt by the human operator interacting with the system while the slave is in free-air is dependent on the local controller parameters and increases linearly with the time-delay with a factor dependent on the master and slave proportional controller gains. The transparency analysis of the system shows that, independently of the time-delay or controller parameters, a stiffness equal to that of the environment is transmitted to the operator. The experimental validation, using a 1-dof master-slave teleoperation system, shows that the proposed criterion can approximate the identified damping with an accuracy of 5% for time-delay values up to 30 ms. It is also highlighted by the experimental results that, in the transition between free-air and rigid contact, the impedance rendered to the operator is lower than that of the actual environment.
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