Proceedings of the XXth Conference of Open Innovations Association FRUCT (Nov 2024)

Exploring the Security Landscape of the Arduino Due in a 6G

  • Sergii Staikutsa,
  • Obaida Firas Osama,
  • Refat Taleb Hussain,
  • Azhar Raheem Mohammed Al-Ani,
  • Samer Saeed Issa,
  • Ibrahim Abdullah,
  • Asan Baker Kanbar

DOI
https://doi.org/10.23919/FRUCT64283.2024.10749852
Journal volume & issue
Vol. 36, no. 1
pp. 178 – 187

Abstract

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Background: The rollout of 6G technology will be the next game-changing force that elevates communication standards, because it aims to offer greater reliability, lower latency and increased network capability. Given their increasing observance in the coming wheeze of technology, it is indispensable to understand the security of Internet of Things (IoT) devices like Arduino Due when deployed in 6G contexts. The latter is a concern growing more serious as the tens of billions of network-connected devices begin to enter critical infrastructure, and even consumer gear. Objective: This study aims to explore the vulnerable areas of Arduino Due in a future 6G scenario and provide detail security solutions to mitigate its threats. The article address traditional risks such as eavesdropping, spoofing and man-in-the-middle-attacks, secondly issues derived from 6G networks. Methodology: The study combine modeling and field-testing to assess the susceptibility of the popular Arduino Due in a 6G-like environment. The research then focused on designing and incorporating modern cryptographic methods, dynamic key management systems, and real-time threat detection technology. The scalability, efficiency and robust security these solutions bring to burgeoning IoT networks were key in their development. Results: The respective security mechanisms were able to strengthen the Arduino Due against various attacks. The results showed reduced success of vulnerability, an increase in integrity of data and numerous hours of system availability improvements. Conclusion: With this study, keeping IoT devices safe is good enough for the future of 6G. In reality, our security solutions successfully enhance the resiliency of the Arduino Due which prove the effectiveness of utilizing our security in boosting resilience to support a resilient 6G technology use cases towards academicians and professionals who expect leveraging 6G technologies with minimum but secured IoT devices