Traffic Prevention and Security Enhancement in VANET Using Deep Learning With Trusted Routing Aided Blockchain Technology

IF 2.5 4区 计算机科学 Q3 TELECOMMUNICATIONS
Cloudin Swamynathan, Revathy Shanmugam, Kanagasabapathy Pradeep Mohan Kumar, Balasubramani Subbiyan
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引用次数: 0

Abstract

Vehicular ad hoc networks (VANETs) in portable broadband networks are a revolutionary concept with enormous potential for developing safe and efficient transportation systems. Because VANETs are open networks that require regular information sharing, it might be difficult to ensure the security of data delivered through VANETs as well as driver privacy. This paper proposes a blockchain technology that supports trusted routing and deep learning for traffic prevention and security enhancement in VANETs. Initially, the proposed Feature Attention-based Extended Convolutional Capsule Network (FA_ECCN) model predicts the driver's behaviors such as normal, drowsy, distracted, fatigued, aggressive, and impaired. Next, the Binary Fire Hawks-based Optimized Link State Routing Protocol (BFH_OLSRP) is used to route traffic after trust values have been assessed. Furthermore, Binary Fire Hawks Optimization (BFHO) determines the best routing path based on criteria such as link stability and node stability degree. Finally, blockchain storage is supported by the Interplanetary File System (IPFS) technology to improve the security of VANET data. Additionally, the validation process is established by using Delegated Practical Byzantine Fault Tolerance (DPBFT). As a result, the proposed study employs the blockchain system to securely send data to neighboring vehicles via trust-based routing, thereby accurately predicting the driver's behavior. The proposed method achieves a better outcome in terms of latency, packet delivery ratio (PDR), overhead packets, throughputs, end-to-end delay, transmission overhead, and computational cost. According to simulation results and efficiency evaluation, the proposed approach outperforms existing approaches and enhances vehicle communication security in an effective manner.

利用深度学习和可信路由辅助区块链技术在 VANET 中预防流量和增强安全性
便携式宽带网络中的车载特设网络(VANET)是一个革命性的概念,在开发安全高效的交通系统方面具有巨大的潜力。由于 VANET 是开放式网络,需要定期共享信息,因此可能难以确保通过 VANET 传输数据的安全性以及驾驶员的隐私。本文提出了一种支持可信路由和深度学习的区块链技术,用于 VANET 中的流量预防和安全增强。首先,本文提出的基于特征注意力的扩展卷积胶囊网络(FA_ECCN)模型可预测驾驶员的行为,如正常、瞌睡、分心、疲劳、攻击性和受损。然后,在评估信任值后,使用基于二进制火鹰的优化链路状态路由协议(BFH_OLSRP)对交通进行路由。此外,二进制火鹰优化(BFHO)根据链路稳定性和节点稳定程度等标准确定最佳路由路径。最后,区块链存储由星际文件系统(IPFS)技术提供支持,以提高 VANET 数据的安全性。此外,验证过程是通过委托实用拜占庭容错(DPBFT)建立的。因此,拟议的研究采用了区块链系统,通过基于信任的路由将数据安全地发送到邻近车辆,从而准确预测驾驶员的行为。所提出的方法在延迟、数据包交付率(PDR)、数据包开销、吞吐量、端到端延迟、传输开销和计算成本方面都取得了较好的结果。根据仿真结果和效率评估,所提出的方法优于现有方法,并能有效增强车辆通信的安全性。
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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来源期刊
CiteScore
8.90
自引率
13.90%
发文量
249
期刊介绍: ransactions on Emerging Telecommunications Technologies (ETT), formerly known as European Transactions on Telecommunications (ETT), has the following aims: - to attract cutting-edge publications from leading researchers and research groups around the world - to become a highly cited source of timely research findings in emerging fields of telecommunications - to limit revision and publication cycles to a few months and thus significantly increase attractiveness to publish - to become the leading journal for publishing the latest developments in telecommunications
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