A Novel Blockchain-Based Trust Management Scheme for Vehicular Networks

2021 Wireless Telecommunications Symposium (WTS) Pub Date : 2021-04-21 DOI:10.1109/WTS51064.2021.9433711

Cong Pu

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引用次数: 9

Abstract

Recent advancements in embedded sensing system, wireless communication technologies, big data, and artificial intelligence have fueled the development of Internet of Vehicles (IoV), where vehicles, road side unit (RSUs), and smart devices seamlessly interact with each other to enable the gathering and sharing of information on vehicles, roads, and their surrounds. As a fundamental component of IoV, vehicular networks (VANETs) are playing a critical role in processing, computing, and sharing travel-related information, which can help vehicles timely be aware of traffic situation and finally improve road safety and travel experience. However, due to the unique characteristics of vehicles, such as high mobility and sparse deployment making neighbor vehicles unacquainted and unknown to each other, VANETs are facing the challenge of evaluating the credibility of road safety messages. In this paper, we propose a blockchain-based trust management system using multi-criteria decision-making model, also referred to as $Trust_{MCDM}^{Block}$, in VANETs. In the $Trust_{MCDM}^{Block}$, each vehicle evaluates the credibility of received road safety message and generates the trust value of message originator. Due to the limited storage capacity, each vehicle periodically uploads the trust value to a nearby RSU. After receiving various trust values from vehicles, the RSU calculates the reputation value of message originator of road safety message using multi-criteria decision-making model, packs the reputation value into a block, and competes to add the block into blockchain. We evaluate the proposed $Trust_{MCDM}^{Block}$ approach through simulation experiments using OMNeT++ and compare its performance with prior blockchain-based decentralized trust management approach. The simulation results indicate that the proposed $Trust_{MCDM}^{Block}$ approach can not only improve fictitious message detection rate and malicious vehicle detection rate, but also can increase the number of dropped fictitious messages.

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一种新的基于区块链的车辆网络信任管理方案

嵌入式传感系统、无线通信技术、大数据和人工智能的最新进展推动了车联网(IoV)的发展，在车联网中，车辆、路侧单元(rsu)和智能设备可以无缝地相互交互，从而收集和共享有关车辆、道路及其周围环境的信息。作为车联网的基础组成部分，车联网在处理、计算和共享出行相关信息方面发挥着至关重要的作用，可以帮助车辆及时了解交通状况，最终改善道路安全和出行体验。然而，由于车辆的独特性，如高机动性和稀疏部署使得相邻车辆彼此不熟悉和未知，vanet面临着评估道路安全信息可信度的挑战。在本文中，我们提出了一种基于区块链的信任管理系统，使用多标准决策模型，在VANETs中也称为$Trust_{MCDM}^{Block}$。在$Trust_{MCDM}^{Block}$中，每辆车评估接收到的道路安全消息的可信度，生成消息发起者的信任值。由于存储容量有限，每辆车定期将信任值上传到附近的RSU。RSU接收到车辆的各种信任值后，使用多准则决策模型计算道路安全消息发起者的信誉值，将信誉值打包成块，并竞争将该块添加到区块链中。我们通过使用omnet++进行仿真实验，评估了提出的$Trust_{MCDM}^{Block}$方法，并将其性能与先前基于区块链的去中心化信任管理方法进行了比较。仿真结果表明，提出的$Trust_{MCDM}^{Block}$方法不仅可以提高虚假消息的检测率和恶意车辆的检测率，而且可以增加虚假消息的丢弃数量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 Wireless Telecommunications Symposium (WTS)

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