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Unconventional Security for IoT: Hardware and Software Implementation of a Digital Chaotic Encrypted Communication Scheme

Nikolaos Karagiorgos, Stavros G. Stavrinides, Carol de Benito, S. Nikolaidis, Rodrigo Picos

2024IEEE Internet of Things Journal18 citationsDOIOpen Access PDF

Abstract

The two main issues in the area of the Internet of Things are low resource consumption and secure data transmission. Conjugating both is fairly hard on ensuring security, leading to great efforts in research. The standard cryptography methods currently proposed are based on simplifications of standard protocols, but are still demanding on resources. Chaotic encryption is a way to reduce this burden, while keeping an equivalent level of security. In this paper, we propose, for the first time, a purely digital scheme for chaotic secure communications, able to be implemented in hardware or software without occupying most of the available resources. Next to the delivered analysis of the system, the experimental demonstration on both FPGA and ESP32 Arduino platforms of chaotic synchronization between transmitter and receiver, included examples of applied encrypted communication in the case of consecutive picture and text transmissions.

Topics & Concepts

Computer scienceEncryptionCryptographySecure communicationSynchronization (alternating current)Communications securitySoftwareChaoticEmbedded systemSecure transmissionScheme (mathematics)TransmitterField-programmable gate arrayComputer hardwareComputer networkComputer securityOperating systemChannel (broadcasting)MathematicsMathematical analysisArtificial intelligenceChaos-based Image/Signal EncryptionChaos control and synchronizationCellular Automata and Applications
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