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Chaos‐based privacy preserving vehicle safety protocol for 5G Connected Autonomous Vehicle networks

Shuja Ansari, Jawad Ahmad, Syed Aziz Shah, Ali Kashif Bashir, Tuleen Boutaleb, Sinan Sinanović

2020Transactions on Emerging Telecommunications Technologies37 citationsDOI

Abstract

Abstract There is a high demand for secure and reliable communications for Connected Autonomous Vehicles (CAVs) in the automotive industry. Privacy and security are key issues in CAVs, where network attacks can result in fatal accidents. The computational time, cost, and robustness of encryption algorithms are important factors in low latency 5G‐enabled secure CAV networks. The presented chaotic Tangent‐Delay Ellipse Reflecting Cavity‐Map system and PieceWise Linear Chaotic Map‐based encryption on short messages exchanged in a CAV network provide both robustness and high speed encryption. In this work, we propose a 5G radio network architecture, which leverages multiple radio access technologies and utilizes Cloud Radio Access Network functionalities for privacy preserved and secure CAV networks. The proposed Vehicular Safety Message identifier algorithm meets transmission requirements with a high probability of 85% for low round trip delay of ≤50 milliseconds. The proposed chaos‐based encryption algorithm exhibits faster speeds with a computational time of 2 to 3 milliseconds, showcasing its lightweight properties ideal for time critical applications.

Topics & Concepts

Computer scienceEncryptionRobustness (evolution)Computer networkSymmetric-key algorithmCloud computingSecure communicationReal-time computingPublic-key cryptographyBiochemistryChemistryOperating systemGeneVehicular Ad Hoc Networks (VANETs)Chaos-based Image/Signal EncryptionOpportunistic and Delay-Tolerant Networks
Chaos‐based privacy preserving vehicle safety protocol for 5G Connected Autonomous Vehicle networks | Litcius