Software Design and Experimental Evaluation of a Reduced AES for IoT Applications

Software Design and Experimental Evaluation of a Reduced AES for IoT Applications

IoT devices include RFID tags, microprocessors, sensors, readers, and actuators. Their main characteristics are their limited resources and computing capabilities, which pose critical challenges to the reliability and security of their applications. Encryption is necessary for security when using th...

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Autores principales: Malik Qasaimeh, Raad S. Al-Qassas, Mohammad Ababneh
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
lightweight cryptography
randomness analysis
internet of things
Information technology
T58.5-58.64
Acceso en línea:https://doaj.org/article/48fb057f18884439b08ba8d397dfa495
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Sumario:IoT devices include RFID tags, microprocessors, sensors, readers, and actuators. Their main characteristics are their limited resources and computing capabilities, which pose critical challenges to the reliability and security of their applications. Encryption is necessary for security when using these limited-resource devices, but conventional cryptographic algorithms are too heavyweight and resource-demanding to run on IoT infrastructures. This paper presents a lightweight version of AES (called LAES), which provides competitive results in terms of randomness levels and processing time, operating on GF(2<sup>4</sup>). Detailed mathematical operations and proofs are presented concerning LAES rounds design fundamentals. The proposed LAES algorithm is evaluated based on its randomness, performance, and power consumption; it is then compared to other cryptographic algorithm variants, namely Present, Clefia, and AES. The design of the randomness and performance analysis is based on six measures developed with the help of the NIST test statistical suite of cryptographic applications. The performance and power consumption of LAES on a low-power, 8-bit microcontroller unit were evaluated using an Arduino Uno board. LAES was found to have competitive randomness levels, processing times, and power consumption compared to Present, Clefia, and AES.

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