Joint Clustering and Blockchain for Real-Time Information Security Transmission at the Crossroads in C-V2X Networks

The cellular vehicle-to-everything (C-V2X) networks support diverse kinds of services, such as traffic management, road safety, and sharing data. However, the safety issues cannot be ignored in the process of information transmission. In this article, a joint clustering and blockchain scheme is proposed for real-time information security transmission to prevent some vehicles from sending malicious messages to disrupt the traffic order at the crossroads in C-V2X networks. In this scheme, the dynamic stability of the cluster is maintained by updating the trust value of the vehicle nodes, which can improve the real time and accuracy of the information transmission. The modified Webster algorithm is presented to divert the traffic flow so as to reduce the traffic jams at the crossroads. Meanwhile, the blockchain technology is utilized to establish a vehicle trust management mechanism in C-V2X, which can avoid malicious tampering of vehicle information during information sharing and ensure the safety of vehicle information communication. The simulation results of the Veins simulation platform are provided to demonstrate the effectiveness of the proposed algorithm and verify that the proposed scheme can guarantee the security of real-time information transmission.

Automated summary

This article proposes a joint clustering and blockchain scheme for real-time information security transmission in C-V2X networks to ensure traffic safety. The scheme maintains the dynamic stability of clusters by updating the trust value of vehicle nodes, while utilizing blockchain technology to establish a vehicle trust management mechanism for secure vehicle information communication.