Control of time-delayed telerobotic systems with flexible-link slave manipulators

This paper focuses on control challenges caused by the slave-arm flexibility in master-slave telerobotic systems. Apart from time delay, the nonlinear non-minimum phase deflection of flexible-link slave manipulators creates extra challenges for control of telerobotic systems. These challenges have f...

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Hauptverfasser:	Atashzar, S. F., Shahbazi, M., Talebi, H. A., Patel, R. V.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Delay Force Impedance Stability criteria Telerobotics
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creator	Atashzar, S. F. Shahbazi, M. Talebi, H. A. Patel, R. V.
description	This paper focuses on control challenges caused by the slave-arm flexibility in master-slave telerobotic systems. Apart from time delay, the nonlinear non-minimum phase deflection of flexible-link slave manipulators creates extra challenges for control of telerobotic systems. These challenges have forced most of the prior research to use basic simplifications. In this paper, we try to remove most of the simplifications using a more realistic model for slave deflections. The degrading effects of flexibility on stability and performance of conventional telerobotics architectures are analyzed. Then, the standard Extended Lawrence Four-Channel (ELFC) control architecture is modified to obtain the stability condition and to enhance performance. Finally, the input-to-output stability (IOS) Small-Gain Theorem is used to generalize the stability criteria for varying delay and to remove the restrictive assumption of deflection-linearity. The proposed architecture consists of a local Partial Feedback Linearization scheme embedded into a modified ELFC architecture. This study is motivated by the use of light-weight cable driven tools in telerobotic surgery.
doi_str_mv	10.1109/IROS.2012.6386170
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subjects	Delay Force Impedance Stability criteria Telerobotics
title	Control of time-delayed telerobotic systems with flexible-link slave manipulators
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