Dynamic key revocation and hybrid cryptographic approaches for secure authentication in the social internet of vehicles

Apr 22, 2025

المجلة International Journal of Innovative Research and Scientific Studies

الناشر OMAR YAWEZ MUSTAFA MUSTAFA

DOI D10.53894/ijirss.v8i2.5956

العدد 1

Analysis of repeated attack signatures is important because of the rapid evolution of the Social Internet of Vehicles (SIoV). However, threats such as replay attacks, session hijacking, and key reuse make secure communication between vehicles, roadside units (RSUs), and the fog node difficult. Traditional models for authentication are limited by computational overhead and lack quick key revocation. In response to these challenges, we propose a hybrid cryptographic authentication scheme that combines a Zero-Knowledge Proof (ZKP) with AES-GCM encryption. Our protocol implements a dynamic key revocation mechanism to avoid rogue and session key migration, minimizing re-authentication delay. Security analysis in the Real-Oracle Random (ROR) model shows that it is not vulnerable to impersonation or replay attacks. Evaluations demonstrate decreases of 58% in authentication latency while achieving 45% and 72% improvements in communication and computation efficiency, respectively. Our approach is also scalable and secure, providing SIoV with higher reliability for automotive applications in the vehicular networks of the future.

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Dynamic key revocation and hybrid cryptographic approaches for secure authentication in the social internet of vehicles

Apr 22, 2025

المجلة International Journal of Innovative Research and Scientific Studies

الناشر OMAR YAWEZ MUSTAFA MUSTAFA

DOI D10.53894/ijirss.v8i2.5956

العدد 2

المجلد 8

Analysis of repeated attack signatures is important because of the rapid evolution of the Social Internet of Vehicles (SIoV). However, threats such as replay attacks, session hijacking, and key reuse make secure communication between vehicles, roadside units (RSUs), and the fog node difficult. Traditional models for authentication are limited by computational overhead and lack quick key revocation. In response to these challenges, we propose a hybrid cryptographic authentication scheme that combines a Zero-Knowledge Proof (ZKP) with AES-GCM encryption. Our protocol implements a dynamic key revocation mechanism to avoid rogue and session key migration, minimizing re-authentication delay. Security analysis in the Real-Oracle Random (ROR) model shows that it is not vulnerable to impersonation or replay attacks. Evaluations demonstrate decreases of 58% in authentication latency while achieving 45% and 72% improvements in communication and computation efficiency, respectively. Our approach is also scalable and secure, providing SIoV with higher reliability for automotive applications in the vehicular networks of the future.

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Dynamic key revocation and hybrid cryptographic approaches for secure authentication in the social internet of vehicles

Jan 4, 2025

المجلة International Journal of Innovative Research and Scientific Studies

الناشر OMAR YAWEZ

DOI 10.53894/ijirss.v8i2.5956

العدد 3135-3151

Analysis of repeated attack signatures is important because of the rapid evolution of the Social Internet of Vehicles (SIoV). However, threats such as replay attacks, session hijacking, and key reuse make secure communication between vehicles, roadside units (RSUs), and the fog node difficult. Traditional models for authentication are limited by computational overhead and lack quick key revocation. In response to these challenges, we propose a hybrid cryptographic authentication scheme that combines a Zero-Knowledge Proof (ZKP) with AES-GCM encryption. Our protocol implements a dynamic key revocation mechanism to avoid rogue and session key migration, minimizing re-authentication delay. Security analysis in the Real-Oracle Random (ROR) model shows that it is not vulnerable to impersonation or replay attacks. Evaluations demonstrate decreases of 58% in authentication latency while achieving 45% and 72% improvements in communication and computation efficiency, respectively. Our approach is also scalable and secure, providing SIoV with higher reliability for automotive applications in the vehicular networks of the future.

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EXPERIMENTAL INVISTIGATION OF THE USE OF INTERNET OF OBJECTS IN FIERE DETECTION AND EXTINGUSHING SYSTEM

Jan 1, 2021

الناشر OMAR YAWEZ

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