Consensus of multiagent systems described by various noninteger derivatives

G. Nava-Antonio; G. Fernández-Anaya; E. G. Hernández-Martnez; J. J. Flores-Godoy; E. D. Ferreira-Vázquez

doi:10.1155/2019/3297410

Consensus of multiagent systems described by various noninteger derivatives

G. Nava-Antonio, G. Fernández-Anaya, E. G. Hernández-Martnez, J. J. Flores-Godoy, E. D. Ferreira-Vázquez

Universidad Iberoamericana

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

1 Scopus citations

Abstract

In this paper, we unify and extend recent developments in Lyapunov stability theory to present techniques to determine the asymptotic stability of six types of fractional dynamical systems. These differ by being modeled with one of the following fractional derivatives: the Caputo derivative, the Caputo distributed order derivative, the variable order derivative, the conformable derivative, the local fractional derivative, or the distributed order conformable derivative (the latter defined in this work). Additionally, we apply these results to study the consensus of a fractional multiagent system, considering all of the aforementioned fractional operators. Our analysis covers multiagent systems with linear and nonlinear dynamics, affected by bounded external disturbances and described by fixed directed graphs. Lastly, examples, which are solved analytically and numerically, are presented to validate our contributions.

Original language	English
Article number	Y
Journal	Complexity
Volume	2019
DOIs	https://doi.org/10.1155/2019/3297410
State	Published - 2019

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abstract = "In this paper, we unify and extend recent developments in Lyapunov stability theory to present techniques to determine the asymptotic stability of six types of fractional dynamical systems. These differ by being modeled with one of the following fractional derivatives: the Caputo derivative, the Caputo distributed order derivative, the variable order derivative, the conformable derivative, the local fractional derivative, or the distributed order conformable derivative (the latter defined in this work). Additionally, we apply these results to study the consensus of a fractional multiagent system, considering all of the aforementioned fractional operators. Our analysis covers multiagent systems with linear and nonlinear dynamics, affected by bounded external disturbances and described by fixed directed graphs. Lastly, examples, which are solved analytically and numerically, are presented to validate our contributions.",

author = "G. Nava-Antonio and G. Fern{\'a}ndez-Anaya and Hern{\'a}ndez-Martnez, {E. G.} and Flores-Godoy, {J. J.} and Ferreira-V{\'a}zquez, {E. D.}",

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T1 - Consensus of multiagent systems described by various noninteger derivatives

AU - Nava-Antonio, G.

AU - Fernández-Anaya, G.

AU - Hernández-Martnez, E. G.

AU - Flores-Godoy, J. J.

AU - Ferreira-Vázquez, E. D.

PY - 2019

Y1 - 2019

N2 - In this paper, we unify and extend recent developments in Lyapunov stability theory to present techniques to determine the asymptotic stability of six types of fractional dynamical systems. These differ by being modeled with one of the following fractional derivatives: the Caputo derivative, the Caputo distributed order derivative, the variable order derivative, the conformable derivative, the local fractional derivative, or the distributed order conformable derivative (the latter defined in this work). Additionally, we apply these results to study the consensus of a fractional multiagent system, considering all of the aforementioned fractional operators. Our analysis covers multiagent systems with linear and nonlinear dynamics, affected by bounded external disturbances and described by fixed directed graphs. Lastly, examples, which are solved analytically and numerically, are presented to validate our contributions.

AB - In this paper, we unify and extend recent developments in Lyapunov stability theory to present techniques to determine the asymptotic stability of six types of fractional dynamical systems. These differ by being modeled with one of the following fractional derivatives: the Caputo derivative, the Caputo distributed order derivative, the variable order derivative, the conformable derivative, the local fractional derivative, or the distributed order conformable derivative (the latter defined in this work). Additionally, we apply these results to study the consensus of a fractional multiagent system, considering all of the aforementioned fractional operators. Our analysis covers multiagent systems with linear and nonlinear dynamics, affected by bounded external disturbances and described by fixed directed graphs. Lastly, examples, which are solved analytically and numerically, are presented to validate our contributions.

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DO - 10.1155/2019/3297410

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SN - 1076-2787

VL - 2019

JO - Complexity

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ER -

Consensus of multiagent systems described by various noninteger derivatives

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