Synchronization of networks of nonidentical euler-lagrange systems with uncertain parameters and communication delays

Emmanuel Nuño; Romeo Ortega; Luis Basañez; David Hill

doi:10.1109/TAC.2010.2103415

Synchronization of networks of nonidentical euler-lagrange systems with uncertain parameters and communication delays

Emmanuel Nuño
, Romeo Ortega
, Luis Basañez
, David Hill

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

458 Citations (Scopus)

Abstract

This paper addresses the problem of synchronizing networks of nonidentical, nonlinear dynamical systems described by Euler-Lagrange equations, which are assumed fully-actuated, with their states available for measurement, but with unknown parameters. The only assumption made on the communication graph is that it is connected. Moreover, the communication is subject to constant time delays, which are also unknown. The main result of the paper is the construction of an adaptive controller that achieves global full-state synchronization, i.e., the difference between the agents positions and velocities asymptotically converges to zero. If a desired trajectory for all systems is given, a slight modification to the proposed scheme achieves also full-state synchronization. Simulations using a ten robot manipulator network are used to illustrate the performance of the proposed schemes.

Original language	English
Article number	5680946
Pages (from-to)	935-941
Number of pages	7
Journal	IEEE Transactions on Automatic Control
Volume	56
Issue number	4
DOIs	https://doi.org/10.1109/TAC.2010.2103415
Publication status	Published - Apr 2011
Externally published	Yes

Keywords

Adaptive control
consensus
delays
synchronization

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10.1109/TAC.2010.2103415

Cite this

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title = "Synchronization of networks of nonidentical euler-lagrange systems with uncertain parameters and communication delays",

abstract = "This paper addresses the problem of synchronizing networks of nonidentical, nonlinear dynamical systems described by Euler-Lagrange equations, which are assumed fully-actuated, with their states available for measurement, but with unknown parameters. The only assumption made on the communication graph is that it is connected. Moreover, the communication is subject to constant time delays, which are also unknown. The main result of the paper is the construction of an adaptive controller that achieves global full-state synchronization, i.e., the difference between the agents positions and velocities asymptotically converges to zero. If a desired trajectory for all systems is given, a slight modification to the proposed scheme achieves also full-state synchronization. Simulations using a ten robot manipulator network are used to illustrate the performance of the proposed schemes.",

keywords = "Adaptive control, consensus, delays, synchronization",

author = "Emmanuel Nu{\~n}o and Romeo Ortega and Luis Basa{\~n}ez and David Hill",

note = "Funding Information: Manuscript received July 08, 2009; revised October 29, 2009; accepted December 08, 2010. Date of publication January 06, 2011; date of current version April 06, 2011. This work was supported in part by the Spanish CICYT projects DPI2008-02448 and DPI2007-63665, the Mexican CONACyT project CB-129079, CONACyT Mexico for the postdoctoral Grant 121978, and by the Mexican SEP PROMEP-NPTC project 103.5/10/4470. Recommended by Associate Editor A. Chiuso.",

year = "2011",

month = apr,

doi = "10.1109/TAC.2010.2103415",

language = "English",

volume = "56",

pages = "935--941",

journal = "IEEE Transactions on Automatic Control",

issn = "0018-9286",

publisher = "IEEE, Institute of Electrical and Electronics Engineers",

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T1 - Synchronization of networks of nonidentical euler-lagrange systems with uncertain parameters and communication delays

AU - Nuño, Emmanuel

AU - Ortega, Romeo

AU - Basañez, Luis

AU - Hill, David

N1 - Funding Information: Manuscript received July 08, 2009; revised October 29, 2009; accepted December 08, 2010. Date of publication January 06, 2011; date of current version April 06, 2011. This work was supported in part by the Spanish CICYT projects DPI2008-02448 and DPI2007-63665, the Mexican CONACyT project CB-129079, CONACyT Mexico for the postdoctoral Grant 121978, and by the Mexican SEP PROMEP-NPTC project 103.5/10/4470. Recommended by Associate Editor A. Chiuso.

PY - 2011/4

Y1 - 2011/4

N2 - This paper addresses the problem of synchronizing networks of nonidentical, nonlinear dynamical systems described by Euler-Lagrange equations, which are assumed fully-actuated, with their states available for measurement, but with unknown parameters. The only assumption made on the communication graph is that it is connected. Moreover, the communication is subject to constant time delays, which are also unknown. The main result of the paper is the construction of an adaptive controller that achieves global full-state synchronization, i.e., the difference between the agents positions and velocities asymptotically converges to zero. If a desired trajectory for all systems is given, a slight modification to the proposed scheme achieves also full-state synchronization. Simulations using a ten robot manipulator network are used to illustrate the performance of the proposed schemes.

AB - This paper addresses the problem of synchronizing networks of nonidentical, nonlinear dynamical systems described by Euler-Lagrange equations, which are assumed fully-actuated, with their states available for measurement, but with unknown parameters. The only assumption made on the communication graph is that it is connected. Moreover, the communication is subject to constant time delays, which are also unknown. The main result of the paper is the construction of an adaptive controller that achieves global full-state synchronization, i.e., the difference between the agents positions and velocities asymptotically converges to zero. If a desired trajectory for all systems is given, a slight modification to the proposed scheme achieves also full-state synchronization. Simulations using a ten robot manipulator network are used to illustrate the performance of the proposed schemes.

KW - Adaptive control

KW - consensus

KW - delays

KW - synchronization

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JO - IEEE Transactions on Automatic Control

JF - IEEE Transactions on Automatic Control

IS - 4

M1 - 5680946

ER -

Synchronization of networks of nonidentical euler-lagrange systems with uncertain parameters and communication delays

Abstract

Keywords

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