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Fast Reaching Finite Time synchronization Approach for Chaotic Systems With Application in Medical Image Encryption

Behrouz Vaseghi, Saleh Mobayen, Somayeh Hashemi, Afef Fekih

2021IEEE Access103 citationsDOIOpen Access PDF

Abstract

This article proposes a fast reaching finite time synchronization approach for chaotic systems along with its application to medical image encryption. First, an adaptive terminal sliding mode tracking approach with fast reaching condition is designed to synchronize the chaotic systems at the transmitter and receiver ends in finite time. Then, a chaotic cryptosystem, using synchronized chaotic systems as secret keys generator, is proposed to enhance the security of medical image transmission and/or storage. The applicability and efficiency of the proposed synchronization approach is assessed using a simulation as well as an analytical study. The analysis encompassed security tools such as histogram analysis, correlation test, and information entropy change the rate of the number of pixels and unified average changing intensity. The obtained results confirmed the robustness and fast convergence rate of the proposed synchronization approach. The security analysis also shows that the proposed cryptosystem displays acceptable levels of resistance to various attacks.

Topics & Concepts

Computer scienceEncryptionCryptosystemRobustness (evolution)Synchronization (alternating current)HistogramChaoticPixelEntropy (arrow of time)Real-time computingAlgorithmArtificial intelligenceImage (mathematics)Computer networkChemistryQuantum mechanicsChannel (broadcasting)GenePhysicsBiochemistryChaos-based Image/Signal EncryptionCellular Automata and ApplicationsChaos control and synchronization
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