Second order sliding mode based synchronization control for cooperative robot manipulators

Fatma Abdelhedi; Yassine Bouteraa; Nabil Derbel

doi:10.1007/978-3-319-30169-3_30

Second order sliding mode based synchronization control for cooperative robot manipulators

Fatma Abdelhedi, Yassine Bouteraa, Nabil Derbel

University of Sfax

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

8 Scopus citations

Abstract

This work develops a modern controller design, combining reformulated second order sliding mode conception with the cross-coupling synchronizing approach. The goal behind the developed control architecture is to synchronize a group of robot manipulators while guaranteeing a performant trajectory tracking motion control. The developed robust approach allows not only to deal with sudden disturbances but also to avoid chattering phenomena yielded by acute discontinuous control signals. The Lyapunov-based analysis has been utilized to establish the multi-robot system asymptotic stability. Simulation results have been provided to demonstrate the performance of the adopted control schemes.

Original language	English
Title of host publication	Studies in Computational Intelligence
Publisher	Springer Verlag
Pages	669-683
Number of pages	15
DOIs	https://doi.org/10.1007/978-3-319-30169-3_30
State	Published - 2016
Externally published	Yes

Publication series

Name	Studies in Computational Intelligence
Volume	635
ISSN (Print)	1860-949X

Keywords

Cross coupling technical
Robot manipulators
Second order sliding mode control
Sliding mode control
Synchronization
Trajectory tracking

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10.1007/978-3-319-30169-3_30

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title = "Second order sliding mode based synchronization control for cooperative robot manipulators",

abstract = "This work develops a modern controller design, combining reformulated second order sliding mode conception with the cross-coupling synchronizing approach. The goal behind the developed control architecture is to synchronize a group of robot manipulators while guaranteeing a performant trajectory tracking motion control. The developed robust approach allows not only to deal with sudden disturbances but also to avoid chattering phenomena yielded by acute discontinuous control signals. The Lyapunov-based analysis has been utilized to establish the multi-robot system asymptotic stability. Simulation results have been provided to demonstrate the performance of the adopted control schemes.",

keywords = "Cross coupling technical, Robot manipulators, Second order sliding mode control, Sliding mode control, Synchronization, Trajectory tracking",

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T1 - Second order sliding mode based synchronization control for cooperative robot manipulators

AU - Abdelhedi, Fatma

AU - Bouteraa, Yassine

AU - Derbel, Nabil

N1 - Publisher Copyright: © Springer International Publishing Switzerland 2016.

PY - 2016

Y1 - 2016

N2 - This work develops a modern controller design, combining reformulated second order sliding mode conception with the cross-coupling synchronizing approach. The goal behind the developed control architecture is to synchronize a group of robot manipulators while guaranteeing a performant trajectory tracking motion control. The developed robust approach allows not only to deal with sudden disturbances but also to avoid chattering phenomena yielded by acute discontinuous control signals. The Lyapunov-based analysis has been utilized to establish the multi-robot system asymptotic stability. Simulation results have been provided to demonstrate the performance of the adopted control schemes.

AB - This work develops a modern controller design, combining reformulated second order sliding mode conception with the cross-coupling synchronizing approach. The goal behind the developed control architecture is to synchronize a group of robot manipulators while guaranteeing a performant trajectory tracking motion control. The developed robust approach allows not only to deal with sudden disturbances but also to avoid chattering phenomena yielded by acute discontinuous control signals. The Lyapunov-based analysis has been utilized to establish the multi-robot system asymptotic stability. Simulation results have been provided to demonstrate the performance of the adopted control schemes.

KW - Cross coupling technical

KW - Robot manipulators

KW - Second order sliding mode control

KW - Sliding mode control

KW - Synchronization

KW - Trajectory tracking

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T3 - Studies in Computational Intelligence

SP - 669

EP - 683

BT - Studies in Computational Intelligence

PB - Springer Verlag

ER -

Second order sliding mode based synchronization control for cooperative robot manipulators

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