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Sustainable Authentication and Key Agreement Protocol Using Chaotic Maps for Industry 5.0

Tao Zhang, Jian Shen, Huijie Yang, Pandi Vijayakumar, Brij B. Gupta, Varsha Arya

2023IEEE Transactions on Consumer Electronics14 citationsDOI

Abstract

With the rapid development and maturity of human-machine interaction and industrial Internet technology, the concept of a human-machine collaborative industrial model has emerged in Industry 5.0. As human-machine interaction involves extensive information exchange between consumers and robots, authentication and key agreement (AKA) protocols are commonly employed to ensure secure communication. However, conventional AKA protocols fall short in meeting the need for sustainable consumer electronics, which can result in a wastage of resources. To enhance the sustainability of consumer electronics, a practical chaotic map-based AKA protocol for future secure communication in Industry 5.0 is proposed, which can achieve secure authentication among consumers, gateway nodes and IoT-based consumer electronics and generate session key. Moreover, biometrics are implanted through specific devices and adopted as an authentication factor to resist password leakage attack. Session key security is proven by using Real-Or-Random (ROR) along with informal security analysis. Furthermore, the widely accepted AVISPA is used to verify whether the protocol can resist active attacks. Finally, the protocol is analyzed through experimental simulations and the experimental results show that it can be applied to future Industry 5.0 communication architectures with better performance.

Topics & Concepts

Computer scienceAuthentication protocolComputer securitySession keyAuthentication (law)Replay attackKey (lock)Computer networkEncryptionUser Authentication and Security SystemsAdvanced Authentication Protocols SecurityBiometric Identification and Security
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