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AuthorAl-Hasan, Tamim M.
AuthorSayed, Aya N.
AuthorBensaali, Faycal
AuthorNhlabatsi, Armstrong
AuthorHamila, Ridha
Available date2024-08-21T09:49:57Z
Publication Date2024
Publication Name2024 IEEE 8th Energy Conference, ENERGYCON 2024 - Proceedings
ResourceScopus
URIhttp://dx.doi.org/10.1109/ENERGYCON58629.2024.10488807
URIhttp://hdl.handle.net/10576/57841
AbstractThis paper provides a comprehensive analysis of the security-centric performance of the Lightweight Cryptography (LWC) algorithms ASCON, TinyJambu, and Xoodyak, finalists in the NIST standardization process, through their implementation on a Raspberry Pi Pico W microcontroller unit to secure Internet of Things (IoT) devices for energy efficiency applications. Our experiments focused on evaluating their encryption/decryption throughput when safeguarding sensor data sent over the MQTT protocol. The key findings were that ASCON demonstrated the highest cryptographic strength, aligned with its selection as a standardized algorithm by NIST, but lower throughput of 1.6 KBps and 1.35 MBps compared to TinyJambu and Xoodyak. TinyJambu proved to be the most efficient, with throughputs of 1.8 KBps and 2.1 MBps, owing to its compact implementation, which is suitable for Resource-Constrained Devices (RCDs). Xoodyak achieved 1.6 KBps and 1.3 MBps throughput but had a larger code footprint. Importantly, all three algorithms enabled end-to-end MQTT communication security, demonstrating their viability for securing IoT RCDs. This research provides valuable insights into leveraging LWC to secure IoT platforms for promoting energy efficiency, smart infrastructure, and sustainability advancements.
SponsorThis paper was made possible by National Priorities Research Program (NPRP) grant \u2116 NPRP14S-0401-210122 from the Qatar National Research Fund (a member of Qatar Foundation). The statements made herein are solely the responsibility of the authors.
Languageen
PublisherIEEE
SubjectAuthenticated Encryption with Associated Data
Energy efficiency
Internet of Energy
Internet of Things
Lightweight cryptography
Microcontroller security
TitleSecurity-Driven Performance Analysis of Lightweight Cryptography for Energy Efficiency Applications
TypeConference
Pagination1-6
dc.accessType Full Text


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