Robust synchronization of multi-weighted fractional order complex dynamical networks under nonlinear coupling via non-fragile control with leakage and constant delays
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Date
2023
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Pergamon-elsevier Science Ltd
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Abstract
In this article, we examine the impact of leakage delays on robust synchronization for fractional order multi-weighted complex dynamical networks(MFCDN) under non-linear coupling via non-fragile control. By employing the fractional order comparison principle, suitable Lyapunov method, and some fractional order inequality techniques, we ensured the robust asymptotical synchronization for MFCDN. In addition to common findings, we have done some specific research in order to get reliable synchronization for multi-weighted complex dynamical network(MCDN) without leakage delay. Additionally, our findings gained are applicable to single weighted FCDN and integer order complex dynamical networks, regardless of whether they have a single weight or many weights. Our suggested approach is shown to be more effective and practical in this article by providing a numerical simulation.
Description
Subramaniyan, Aadhithiyan/0000-0003-0702-7356; Ramachandran, Raja/0000-0003-0830-4933; Alzabut, Prof. Dr. Jehad/0000-0002-5262-1138; , Dianavinnarasi/0000-0003-2977-3843
Keywords
Robust Synchronization, Multi-Weights, Complex Dynamical Networks, Leakage Delays, Non-Linear Coupling, Non-Fragile Control
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Citation
Aadhithiyan S.;...et.al. (2023). "Robust synchronization of multi-weighted fractional order complex dynamical networks under nonlinear coupling via non-fragile control with leakage and constant delays", Chaos, Solitons and Fractals, Vol.174.
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174