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Observer-based robust synchronization of fractional-order multi-weighted complex dynamical networks

Publication Type : Journal

Publisher : Springer

Source : Nonlinear Dynamics

Url : https://link.springer.com/article/10.1007/s11071-019-05258-1

Campus : Chennai

School : School of Engineering

Year : 2019

Abstract : In this paper, the problem of robust synchronization of fractional-order multi-weighted complex dynamical networks in the presence of time-varying coupling delay and disturbances is studied via fractional-order equivalent-input-disturbance (FOEID) estimator-based non-fragile feedback control scheme. Precisely, FOEID-based disturbance estimator is incorporated in the feedback control input to compensate the disturbance effect in the resulting closed-loop system, which removes the disturbance effect without any prior knowledge of it. By utilizing FOEID method and synchronization error dynamics, the synchronization problem of fractional-order complex dynamical network is transformed into the stability problem of the augmented form of the closed-loop error system. Based on the Lyapunov stability theory, fractional calculus theory and some advanced integral inequalities, a novel set of sufficient conditions is established to ensure the robust asymptotic stability of the augmented error system subject to time-varying delay and disturbances. Finally, two numerical examples including a comparison study are given to illustrate the obtained theoretical results and the control design.

Cite this Research Publication : R. Sakthivel, R. Sakthivel, O.M. Kwon, P. Selvaraj, and S. Marshal Anthoni, Observer-based robust synchronization of fractional-order multi-weighted complex dynamical networks, Nonlinear Dynamics, 98, 1231-1246, Oct. 2019(IF: 5.6) ISSN: 0924-090X.

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