Authors:
Arijit Karati
;
Yu-Sheng Chang
and
Ting-Yu Chen
Affiliation:
Department of Computer Science and Engineering, National Sun Yat-sen University, Kaohsiung, Taiwan, Republic of China
Keyword(s):
Authentication, Key Agreement, Extended Chaotic Maps (ECM), Physically Unclonable Function (PUF), Security, Privacy, Lightweight Cryptography.
Abstract:
Public-key based authentication and key agreement (AKA) protocols have attracted considerable interest in providing secure access for various application scenarios. Although three-factor AKA (3FAKA) offers higher security than one- or two-factor ones, most existing 3FAKA are vulnerable, or their safety is reduced to the security of one- or two-factor authentication. Thus, finding a balance between security and usability and countering cloning risks with robust three-factor authentication is an ongoing problem. To mitigates such issues, we propose a lightweight 3FAKA for mobile devices. The suggested 3FAKA employs the physical unclonable function to withstand device cloning attacks and extended chaotic maps to preserve lightweight processes while ensuring essential cryptographic traits, such as unpredictability, unrepeatability, and uncertainty. It is secure under the intractability of extended chaotic maps computational Diffie-Hellman problem. Performance analysis exhibits that our p
rotocol provides a comprehensive set of security and functional aspects accounting for adequate computation, storage, and communication costs compared to state-of-the-art alternatives.
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