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RFAP: A Revocable Fine-Grained Access Control Mechanism for Autonomous Vehicle Platoon

Yanan Zhao, Yunpeng Wang, Xiaochun Cheng, Hengwei Chen, Haiyang Yu, Yilong Ren

2021IEEE Transactions on Intelligent Transportation Systems32 citationsDOI

Abstract

Autonomous Vehicle Platoon (AVP) is conceived as a promising solution to enhance the traffic capacity and reduce the energy consumption in the intelligent transportation system. Nevertheless, AVP without security guarantees are prone to various attacks, which probably lead to life-threatening accidents. Motivated by solving this issue, an outsourced attribute-based access control mechanism with direct revocation for AVP (RFAP) is introduced in this paper. Among them, attribute-based encryption is utilized to implement fine-grained access control during the encryption process. Furthermore, RFAP can not only realize the immediate revocation of platoon member who is about to leave the platoon without affecting others, but also achieve secure outsourced decryption with the help of edge computing units for minimizing the computational overhead of decryption on the vehicle side. Security analysis and simulation results indicate that our RFAP mechanism is practical in aspects of security and efficiency.

Topics & Concepts

PlatoonRevocationEncryptionAccess controlComputer securityComputer scienceIntelligent transportation systemProcess (computing)Computer networkMechanism (biology)Overhead (engineering)EngineeringControl (management)Transport engineeringOperating systemArtificial intelligencePhilosophyEpistemologyVehicular Ad Hoc Networks (VANETs)Cryptography and Data SecurityPrivacy-Preserving Technologies in Data
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