Download This PaperRobust Stabilization and Synchronization in a Network of Chaotic Systems with Time-Varying Delays
9 Pages Posted: 17 Feb 2022
Abstract
In this paper, a novel robust controller technique is derived for the network synchronization of chaotic systems with time-varying delay. The stabilization of the complex chaotic systems is achieved by considering an appropriate Krasovskii-Lyapunov functional in order to find the asynchronous robust stabilization law and fast switching topology. In a similar way, the asynchronous robust technique is based on an appropriate switching topology in order to synchronize the chaotic systems. The time-varying delays occur in different systems which increase the complexity of the synchronization. So for this reason, an asynchronous controller is designed by considering the time-varying delays in order to avoid instability or deteriorate performance of the whole chaotic systems. The remarkable finding of this study is that the robust controller considers the uncertainties on each complex chaotic systems node until an exact synchronization is achieved while switching the action of the controller synchronization and the chaotic node dynamics of the studied complex systems. Finally, numerical examples are considered on chaotic Rossler systems to test and validate the obtained theoretical results. HighlightsRobust stabilization and synchronization in a network of chaotic systems with time-varying delays Fernando E. Serrano,Dibakar Ghosh• We propose controllers for robust stabilization and synchronization in a network of chaotic systems.• The stability of synchronization state is explored using Krasovskii-Lyapunov functional approach.• The robust control stabilizing law provides a low effort for stabilization and synchronization.
Keywords: Synchronization, Stabilization, Chaotic complex systems, time-varying delays, Krasovskii-Lyapunov function
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