Noise-Resilient Authentication Protocol for Unmanned Aerial Networks. Bansal, G. & Sikdar, B. IEEE Transactions on Network Science and Engineering, IEEE, Review. abstract bibtex Recent times have shown a rapid development in wireless communication-based technologies, especially in Unmanned Aerial Vehicle (UAV) based applications. However, UAV-based applications have not achieved its full potential due to security vulnerabilities that it suffers. The communication between the drones and the base station is susceptible to intrusion. Many authentication protocols like Physical Unclonable Functions (PUF) based protocols have been proposed to mitigate this issue that ensures reliable, secure, and fast drone authentication. However, the major drawback in these papers is that they require noise-resistant and theoretically ideal PUF. This assumption limits the use-case of UAV based authentication mechanism. Thus, we propose a novel authentication technique using Shamir's secret sharing, which is resistant to noisy PUFs. The correctness and perfectness achieved by the proposed protocol are shown using Shannon's information communication theory. Moreover, Subsequent analysis shows that our proposed scheme improves the performance of authentication of UAVs.
@article{ShamirII,
title={Noise-Resilient Authentication Protocol for Unmanned Aerial Networks},
author={Bansal, Gaurang and Sikdar, Biplab},
journal={IEEE Transactions on Network Science and Engineering},
publisher={IEEE},
year={Review},
abstract={
Recent times have shown a rapid development in wireless communication-based technologies, especially in Unmanned Aerial Vehicle (UAV) based applications. However, UAV-based applications have not achieved its full potential due to security vulnerabilities that it suffers. The communication between the drones and the base station is susceptible to intrusion. Many authentication protocols like Physical Unclonable Functions (PUF) based protocols have been proposed to mitigate this issue that ensures reliable, secure, and fast drone authentication. However, the major drawback in these papers is that they require noise-resistant and theoretically ideal PUF. This assumption limits the use-case of UAV based authentication mechanism. Thus, we propose a novel authentication technique using Shamir's secret sharing, which is resistant to noisy PUFs. The correctness and perfectness achieved by the proposed protocol are shown using Shannon's information communication theory. Moreover, Subsequent analysis shows that our proposed scheme improves the performance of authentication of UAVs.
}
}
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