P2SF-IoV: A Privacy-Preservation-Based Secured Framework for Internet of Vehicles

• Published in: IEEE transactions on intelligent transportation systems Vol. 23; no. 11; pp. 22571 - 22582
• Main Authors: Kumar, Randhir, Kumar, Prabhat, Tripathi, Rakesh, Gupta, Govind P., Kumar, Neeraj
• Format: Journal Article
• Language: English
• Published: New York IEEE 01.11.2022; The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
• Subjects: Blockchain; Blockchains; Computer architecture; Cryptography; Cybersecurity; Deep learning; Intelligent transportation systems; Internet of Things; Internet of Vehicles; Internet of Vehicles (IoV); Intrusion detection; intrusion detection system (IDS); Intrusion detection systems; Malware; Modules; Open channels; Privacy; privacy-preservation; Roadsides; Security; Smart contracts; Vehicles
• ISSN: 1524-9050; 1558-0016
• DOI: 10.1109/TITS.2021.3102581

With the development of Internet of Vehicles (IoV), the integration of Internet of Things (IoT) and manual vehicles becomes inevitable in Intelligent Transportation Systems (ITS). In ITS, the IoVs communicate wirelessly with other IoVs, Road Side Unit (RSU) and Cloud Server using an open channel Internet. The openness of above participating entities and their communication technologies brings challenges such as security vulnerabilities, data privacy, transparency, verifiability, scalability, and data integrity among participating entities. To address these challenges, we present a Privacy-Preserving based Secured Framework for Internet of Vehicles (P2SF-IoV). P2SF-IoV integrates blockchain and deep learning technique to overcome aforementioned challenges, and works on two modules. First, a blockchain module is developed to securely transmit the data between IoV-RSU-Cloud. Second, a deep learning module is designed that uses the data from blockchain module to detect intrusion and its performance is assessed using two network datasets IoT-Botnet and ToN-IoT. In contrast with other peer privacy-preserving intrusion detection strategies, the P2SF-IoV approach is compared, and the experimental results reveal that in both blockchain and non-blockchain based solutions, the proposed P2SF-IoV framework outperforms.