Litcius/Paper detail

A new synchronization result for fractional-order discrete-time chaotic systems via bandlimited channels

Hamid Hamiche, Ouerdia Megherbi, Karim Kemih, Redouane Kara, A. Ouslimani

2024Physica Scripta10 citationsDOIOpen Access PDF

Abstract

Abstract Recently, digital chaotic communication with limited bandwidth has seized the attention of several researchers. This interest stems from the fact that all physical communication channels are limited in bandwidth for data transmission. In furtherance of this, researchers and investigators in this area have put forward various new communication strategies based on synchronizing and controlling coupled chaotic systems evolving in discrete time. In this article, we present a new robust communication scheme based on the synchronization of two fractional-order discrete-time chaotic systems connected by bandlimited channels. The major contribution is to give a sufficient condition in term of the existing and updated parameters of the incorporated fractional-order system on one hand and the inserted filter coefficients, on the other hand. Once applied for data communications, the currently drawn up synchronization scheme pledges to enhance the transmission robustness. Indeed, the new considered parameters act like novel secret keys which widen the cipher key space. Primary and pertinent simulation curves and results performed on Matlab software portray and illustrate the effectiveness of our approach.

Topics & Concepts

Synchronization (alternating current)Chaotic systemsBandlimitingChaoticOrder (exchange)Computer scienceSynchronization of chaosControl theory (sociology)Applied mathematicsStatistical physicsMathematicsPhysicsChannel (broadcasting)Mathematical analysisTelecommunicationsFourier transformFinanceEconomicsArtificial intelligenceControl (management)Chaos control and synchronizationChaos-based Image/Signal EncryptionNonlinear Dynamics and Pattern Formation