Litcius/Paper detail

B-SAFE: Blockchain-Enabled Security Architecture for Connected Vehicle Fog Environment

Priyanka Gaba, Ram Shringar Raw, Omprakash Kaiwartya, Mohammad Aljaidi

2024Sensors19 citationsDOIOpen Access PDF

Abstract

Vehicles are no longer stand-alone mechanical entities due to the advancements in vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication-centric Internet of Connected Vehicles (IoV) frameworks. However, the advancement in connected vehicles leads to another serious security threat, online vehicle hijacking, where the steering control of vehicles can be hacked online. The feasibility of traditional security solutions in IoV environments is very limited, considering the intermittent network connectivity to cloud servers and vehicle-centric computing capability constraints. In this context, this paper presents a Blockchain-enabled Security Architecture for a connected vehicular Fog networking Environment (B-SAFE). Firstly, blockchain security and vehicular fog networking are introduced as preliminaries of the framework. Secondly, a three-layer architecture of B-SAFE is presented, focusing on vehicular communication, blockchain at fog nodes, and the cloud as trust and reward management for vehicles. Thirdly, details of the blockchain implementation at fog nodes is presented, along with a flowchart and algorithm. The performance of the evaluation of the proposed framework B-SAFE attests to the benefits in terms of trust, reward points, and threshold calculation.

Topics & Concepts

Computer scienceBlockchainArchitectureCloud computingComputer securityContext (archaeology)Vehicular ad hoc networkComputer networkFog computingThe InternetVehicle-to-vehicleInternet of ThingsWireless ad hoc networkTelecommunicationsWirelessOperating systemPaleontologyVisual artsBiologyArtBlockchain Technology Applications and SecurityVehicular Ad Hoc Networks (VANETs)IoT and Edge/Fog Computing
B-SAFE: Blockchain-Enabled Security Architecture for Connected Vehicle Fog Environment | Litcius