Distributed consensus for multiple euler-lagrange systems: An event-triggered approach

Na Huang; Zhi Sheng Duan; Yu Zhao

doi:10.1007/s11431-015-5987-9

Distributed consensus for multiple euler-lagrange systems: An event-triggered approach

Na Huang, Zhi Sheng Duan, Yu Zhao

Peking University

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

47 Scopus citations

Abstract

Distributed consensus problems for multiple Euler-Lagrange systems are addressed on the basis of event-triggered information in this study. Distributed consensus protocols are first designed in terms of two event-triggered scenarios: a decentralized strategy and a distributed strategy. Sufficient conditions that guarantee the event-triggered consensus for multiple Euler- Lagrange systems are then presented, with the associated advantages of reducing controller update times. It is shown that the Zeno behavior of triggering time sequences is excluded for both strategies. Finally, multiple Euler-Lagrange systems that consist of six two-link manipulators are considered to illustrate the effectiveness of the proposed theoretical algorithms.

Original language	English
Pages (from-to)	33-44
Number of pages	12
Journal	Science China Technological Sciences
Volume	59
Issue number	1
DOIs	https://doi.org/10.1007/s11431-015-5987-9
State	Published - 1 Jan 2016
Externally published	Yes

Keywords

Consensus
Distributed control
Euler-Lagrange system
Event-triggered strategy

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10.1007/s11431-015-5987-9

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title = "Distributed consensus for multiple euler-lagrange systems: An event-triggered approach",

abstract = "Distributed consensus problems for multiple Euler-Lagrange systems are addressed on the basis of event-triggered information in this study. Distributed consensus protocols are first designed in terms of two event-triggered scenarios: a decentralized strategy and a distributed strategy. Sufficient conditions that guarantee the event-triggered consensus for multiple Euler- Lagrange systems are then presented, with the associated advantages of reducing controller update times. It is shown that the Zeno behavior of triggering time sequences is excluded for both strategies. Finally, multiple Euler-Lagrange systems that consist of six two-link manipulators are considered to illustrate the effectiveness of the proposed theoretical algorithms.",

keywords = "Consensus, Distributed control, Euler-Lagrange system, Event-triggered strategy",

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AU - Zhao, Yu

N1 - Publisher Copyright: © Science China Press and Springer-Verlag Berlin Heidelberg 2015. All Rights Resreved.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - Distributed consensus problems for multiple Euler-Lagrange systems are addressed on the basis of event-triggered information in this study. Distributed consensus protocols are first designed in terms of two event-triggered scenarios: a decentralized strategy and a distributed strategy. Sufficient conditions that guarantee the event-triggered consensus for multiple Euler- Lagrange systems are then presented, with the associated advantages of reducing controller update times. It is shown that the Zeno behavior of triggering time sequences is excluded for both strategies. Finally, multiple Euler-Lagrange systems that consist of six two-link manipulators are considered to illustrate the effectiveness of the proposed theoretical algorithms.

AB - Distributed consensus problems for multiple Euler-Lagrange systems are addressed on the basis of event-triggered information in this study. Distributed consensus protocols are first designed in terms of two event-triggered scenarios: a decentralized strategy and a distributed strategy. Sufficient conditions that guarantee the event-triggered consensus for multiple Euler- Lagrange systems are then presented, with the associated advantages of reducing controller update times. It is shown that the Zeno behavior of triggering time sequences is excluded for both strategies. Finally, multiple Euler-Lagrange systems that consist of six two-link manipulators are considered to illustrate the effectiveness of the proposed theoretical algorithms.

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Distributed consensus for multiple euler-lagrange systems: An event-triggered approach

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Keywords

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