A Novel Switching-Based Control Framework for Improved Task Performance in Teleoperation System with Asymmetric Time-Varying Delays

Di Hua Zhai; Yuanqing Xia

doi:10.1109/TCYB.2017.2647830

A Novel Switching-Based Control Framework for Improved Task Performance in Teleoperation System with Asymmetric Time-Varying Delays

Di Hua Zhai, Yuanqing Xia^*

^*Corresponding author for this work

School of Automation

Research output: Contribution to journal › Article › peer-review

32 Citations (Scopus)

Abstract

This paper addresses the adaptive control for task-space teleoperation systems with constrained predefined synchronization error, where a novel switched control framework is investigated. Based on multiple Lyapunov-Krasovskii functionals method, the stability of the resulting closed-loop system is established in the sense of state-independent input-to-output stability. Compared with previous work, the developed method can simultaneously handle the unknown kinematics/dynamics, asymmetric varying time delays, and prescribed performance control in a unified framework. It is shown that the developed controller can guarantee the prescribed transient-state and steady-state synchronization performances between the master and slave robots, which is demonstrated by the simulation study.

Original language	English
Article number	7827077
Pages (from-to)	625-638
Number of pages	14
Journal	IEEE Transactions on Cybernetics
Volume	48
Issue number	2
DOIs	https://doi.org/10.1109/TCYB.2017.2647830
Publication status	Published - Feb 2018

Keywords

Adaptive control
prescribed performance control (PPC)
switched control
task-space teleoperation
varying time delays

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10.1109/TCYB.2017.2647830

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title = "A Novel Switching-Based Control Framework for Improved Task Performance in Teleoperation System with Asymmetric Time-Varying Delays",

abstract = "This paper addresses the adaptive control for task-space teleoperation systems with constrained predefined synchronization error, where a novel switched control framework is investigated. Based on multiple Lyapunov-Krasovskii functionals method, the stability of the resulting closed-loop system is established in the sense of state-independent input-to-output stability. Compared with previous work, the developed method can simultaneously handle the unknown kinematics/dynamics, asymmetric varying time delays, and prescribed performance control in a unified framework. It is shown that the developed controller can guarantee the prescribed transient-state and steady-state synchronization performances between the master and slave robots, which is demonstrated by the simulation study.",

keywords = "Adaptive control, prescribed performance control (PPC), switched control, task-space teleoperation, varying time delays",

author = "Zhai, {Di Hua} and Yuanqing Xia",

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AU - Xia, Yuanqing

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N2 - This paper addresses the adaptive control for task-space teleoperation systems with constrained predefined synchronization error, where a novel switched control framework is investigated. Based on multiple Lyapunov-Krasovskii functionals method, the stability of the resulting closed-loop system is established in the sense of state-independent input-to-output stability. Compared with previous work, the developed method can simultaneously handle the unknown kinematics/dynamics, asymmetric varying time delays, and prescribed performance control in a unified framework. It is shown that the developed controller can guarantee the prescribed transient-state and steady-state synchronization performances between the master and slave robots, which is demonstrated by the simulation study.

AB - This paper addresses the adaptive control for task-space teleoperation systems with constrained predefined synchronization error, where a novel switched control framework is investigated. Based on multiple Lyapunov-Krasovskii functionals method, the stability of the resulting closed-loop system is established in the sense of state-independent input-to-output stability. Compared with previous work, the developed method can simultaneously handle the unknown kinematics/dynamics, asymmetric varying time delays, and prescribed performance control in a unified framework. It is shown that the developed controller can guarantee the prescribed transient-state and steady-state synchronization performances between the master and slave robots, which is demonstrated by the simulation study.

KW - Adaptive control

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A Novel Switching-Based Control Framework for Improved Task Performance in Teleoperation System with Asymmetric Time-Varying Delays

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