Adaptive fuzzy control of trilateral tele-operation with communication random delays

Zhijun Li; Liang Ding; Haibo Gao

doi:10.1109/ICInfA.2012.6246799

Adaptive fuzzy control of trilateral tele-operation with communication random delays

Zhijun Li
, Liang Ding
, Haibo Gao^*

^*Corresponding author for this work

South China University of Technology
School of Mechatronics Engineering, Harbin Institute of Technology

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

Abstract

In this paper, adaptive fuzzy controls are proposed for hybrid motion/force of trilateral teleoperation system with dual-master-single-slave configuration under stochastic time-varying delays in communication channels. Using partial feedback linearization, the whole trilateral teleoperation system consisting of both the master and the slave is transformed into three subsystems. By integrating Markov jump systems to handle random delays, adaptive fuzzy control strategies are developed for the nonlinear teleoperators with modeling uncertainties and external disturbances by using the approximation property of the fuzzy logic systems. The proposed controls are validated by extensive simulations.

Original language	English
Title of host publication	2012 IEEE International Conference on Information and Automation, ICIA 2012
Pages	148-155
Number of pages	8
DOIs	https://doi.org/10.1109/ICInfA.2012.6246799
State	Published - 2012
Externally published	Yes
Event	2012 IEEE International Conference on Information and Automation, ICIA 2012 - Shenyang, China Duration: 6 Jun 2012 → 8 Jun 2012

Publication series

Name	2012 IEEE International Conference on Information and Automation, ICIA 2012

Conference

Conference	2012 IEEE International Conference on Information and Automation, ICIA 2012
Country/Territory	China
City	Shenyang
Period	6/06/12 → 8/06/12

Keywords

Trilateral teleoperation
fuzzy control
random delay

Access to Document

10.1109/ICInfA.2012.6246799

Cite this

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title = "Adaptive fuzzy control of trilateral tele-operation with communication random delays",

abstract = "In this paper, adaptive fuzzy controls are proposed for hybrid motion/force of trilateral teleoperation system with dual-master-single-slave configuration under stochastic time-varying delays in communication channels. Using partial feedback linearization, the whole trilateral teleoperation system consisting of both the master and the slave is transformed into three subsystems. By integrating Markov jump systems to handle random delays, adaptive fuzzy control strategies are developed for the nonlinear teleoperators with modeling uncertainties and external disturbances by using the approximation property of the fuzzy logic systems. The proposed controls are validated by extensive simulations.",

keywords = "Trilateral teleoperation, fuzzy control, random delay",

author = "Zhijun Li and Liang Ding and Haibo Gao",

year = "2012",

doi = "10.1109/ICInfA.2012.6246799",

language = "英语",

isbn = "9781467322386",

series = "2012 IEEE International Conference on Information and Automation, ICIA 2012",

pages = "148--155",

booktitle = "2012 IEEE International Conference on Information and Automation, ICIA 2012",

note = "2012 IEEE International Conference on Information and Automation, ICIA 2012 ; Conference date: 06-06-2012 Through 08-06-2012",

}

Li, Z, Ding, L & Gao, H 2012, Adaptive fuzzy control of trilateral tele-operation with communication random delays. in 2012 IEEE International Conference on Information and Automation, ICIA 2012., 6246799, 2012 IEEE International Conference on Information and Automation, ICIA 2012, pp. 148-155, 2012 IEEE International Conference on Information and Automation, ICIA 2012, Shenyang, China, 6/06/12. https://doi.org/10.1109/ICInfA.2012.6246799

Adaptive fuzzy control of trilateral tele-operation with communication random delays. / Li, Zhijun; Ding, Liang; Gao, Haibo.
2012 IEEE International Conference on Information and Automation, ICIA 2012. 2012. p. 148-155 6246799 (2012 IEEE International Conference on Information and Automation, ICIA 2012).

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

TY - GEN

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AU - Ding, Liang

AU - Gao, Haibo

PY - 2012

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N2 - In this paper, adaptive fuzzy controls are proposed for hybrid motion/force of trilateral teleoperation system with dual-master-single-slave configuration under stochastic time-varying delays in communication channels. Using partial feedback linearization, the whole trilateral teleoperation system consisting of both the master and the slave is transformed into three subsystems. By integrating Markov jump systems to handle random delays, adaptive fuzzy control strategies are developed for the nonlinear teleoperators with modeling uncertainties and external disturbances by using the approximation property of the fuzzy logic systems. The proposed controls are validated by extensive simulations.

AB - In this paper, adaptive fuzzy controls are proposed for hybrid motion/force of trilateral teleoperation system with dual-master-single-slave configuration under stochastic time-varying delays in communication channels. Using partial feedback linearization, the whole trilateral teleoperation system consisting of both the master and the slave is transformed into three subsystems. By integrating Markov jump systems to handle random delays, adaptive fuzzy control strategies are developed for the nonlinear teleoperators with modeling uncertainties and external disturbances by using the approximation property of the fuzzy logic systems. The proposed controls are validated by extensive simulations.

KW - Trilateral teleoperation

KW - fuzzy control

KW - random delay

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U2 - 10.1109/ICInfA.2012.6246799

DO - 10.1109/ICInfA.2012.6246799

M3 - 会议稿件

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BT - 2012 IEEE International Conference on Information and Automation, ICIA 2012

T2 - 2012 IEEE International Conference on Information and Automation, ICIA 2012

Y2 - 6 June 2012 through 8 June 2012

ER -

Adaptive fuzzy control of trilateral tele-operation with communication random delays

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Keywords

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