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Synchronisation among multiple chaotic systems connected in chain and star configuration using backstepping strategy

Synchronisation among multiple chaotic systems connected in chain and star configuration using... The present paper addresses synchronisation of multiple chaotic systems using backstepping methodology. In this approach, multiple chaotic systems belonging to a proposed class of nonlinear systems and connected in chain and star configuration are considered. The controllers are designed by developing generalised error dynamics between consecutive systems in the networks and systematic stage by stage procedure blended with Lyapunov theory is used to obtain the structure of controllers. The procedure, thus, is a generalised synchronisation method for interconnection of a class of systems with single nonlinearity. Numerical simulations on chain and star interconnection of chaotic Chua's systems are carried out in order to demonstrate the efficacy and feasibility of this proposed approach. The proposed approach can provide a method, which is applicable for designing combinational synchronisation among multiple chaotic systems in various other configurations. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png International Journal of Systems, Control and Communications Inderscience Publishers

Synchronisation among multiple chaotic systems connected in chain and star configuration using backstepping strategy

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Publisher
Inderscience Publishers
Copyright
Copyright © Inderscience Enterprises Ltd
ISSN
1755-9340
eISSN
1755-9359
DOI
10.1504/ijscc.2023.127485
Publisher site
See Article on Publisher Site

Abstract

The present paper addresses synchronisation of multiple chaotic systems using backstepping methodology. In this approach, multiple chaotic systems belonging to a proposed class of nonlinear systems and connected in chain and star configuration are considered. The controllers are designed by developing generalised error dynamics between consecutive systems in the networks and systematic stage by stage procedure blended with Lyapunov theory is used to obtain the structure of controllers. The procedure, thus, is a generalised synchronisation method for interconnection of a class of systems with single nonlinearity. Numerical simulations on chain and star interconnection of chaotic Chua's systems are carried out in order to demonstrate the efficacy and feasibility of this proposed approach. The proposed approach can provide a method, which is applicable for designing combinational synchronisation among multiple chaotic systems in various other configurations.

Journal

International Journal of Systems, Control and CommunicationsInderscience Publishers

Published: Jan 1, 2023

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