基于信任验证的安全杉野模糊推理系统方案--使用路由协议的安全车对车通信

Q3 Engineering

Recent Patents on Engineering Pub Date : 2024-02-23 DOI:10.2174/0118722121269253240214075231

Anupama K N, R. Nagaraj

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引用次数: 0

摘要

车载 Ad-hoc 网络（VANET）是路边车辆与车辆基础设施之间的无线通信。车载 Ad Hoc 网络（VANET）是一种前景广阔的技术，可有效管理交通并确保道路安全。然而，在开放访问环境中进行通信对安全和隐私问题提出了真正的挑战，这可能会影响 VANET 的大规模部署。车辆识别、分类、分配率和通信是以往方法中最具挑战性的领域。为了克服这些缺点，本研究提出了一种基于人工神经网络信任认证安全菅野模糊系统（AN2-TAS2FS）的新方法。车载 Ad HocNetworks（VANET）需要在车辆之间传输数据并使用交通安全指标。基于人工神经网络的信任认证安全杉野模糊系统（AN2-TAS2FS）使用对称密钥来提高 VANET 的安全性能。为了克服这些缺点，这项工作提出了一种基于人工神经网络的信任认证安全菅野模糊系统（AN2-TAS2FS）的新方法。车载 Ad Hoc 网络（VANET）需要在车辆之间传输数据，并使用交通安全指标改进集群安全路由协议（ICSRP）。基于人工神经网络的信任认证安全菅野模糊系统（AN2-TAS2FS）使用对称密钥来提高 VANET 的安全性能。在改进的基于集群的 VANET 路由协议中，每个节点都通过无线车辆-车辆（V2V）交换和路边单元（RSUs）之间的新寻址方案获得地址。仿真结果表明，在所提出的基于 ANN 的信任认证安全菅野模糊系统（AN2-TAS2FS）分析中，数据包传输率为 93%，延迟性能为 0.55sec，吞吐量性能为 94%，带宽为 55bits/sec，网络安全性为 92%，传输率为 89%，攻击检测率为 90%。

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Secure Vehicle-to-Vehicle Communication Using Routing Protocol Based On Trust Authentication Secure Sugeno Fuzzy Inference System Scheme

Vehicular Ad-hoc Network (VANET) is wireless communication between Roadside vehicles and vehicle infrastructure. Vehicle Ad Hoc Network (VANET) is a promising technology that effectively manages traffic and ensures road safety. However, communication in an open-access environment presents real challenges to security and privacy issues, which may affect large-scale deployments of VANETs. Vehicle identification, classification, distribution rates, and communication are the most challenging areas in previous methods. Vehicular communications face challenges due to vehicle interference and severe delays. To overcome the drawbacks, this work proposed a new method based on the Artificial Neural Network Trust Authentication Secure Sugeno Fuzzy System (AN2-TAS2FS). Vehicular Ad Hoc Networks (VANET) are required to transmit data between vehicles and use traffic safety indicators. Improved Cluster-Based Secure Routing Protocol (ICSRP). Artificial Neural Network Based Trust Authentication Secure Sugeno Fuzzy System (AN2-TAS2FS) used the symmetric key to increase the security performance of VANET. Use ANFIS-based Secure Sugeno Fuzzy System for calculating the node weights for data transferring; reduced the attacks accuracy of network malicious attacks. To overcome the drawbacks, this work proposed a new method based on Artificial Neural Network Based Trust Authentication Secure Sugeno Fuzzy System (AN2-TAS2FS). Vehicular Ad Hoc Networks (VANET) are required to transmit data between vehicles and use traffic safety indicators Improved Cluster-Based Secure Routing Protocol (ICSRP). Artificial Neural Network Based Trust Authentication Secure Sugeno Fuzzy System (AN2-TAS2FS) used the symmetric key to increase the security performance of VANET. In the improved cluster-based VANET routing protocol, each node obtains an address using a new addressing scheme between the wireless vehicle-2-vehicle (V2V) exchanges and the Roadside Units (RSUs). It will explore the effectiveness of the Secure Sugeno Fuzzy System-based adaptation term Enhanced Cluster-based routing protocol in finding the vehicle's shortest-path for transmission. Simulation results show that in the proposed ANN-based Trust Authentication Secure Sugeno Fuzzy System (AN2-TAS2FS) analysis, the packet delivery ratio is 93%, delay performance is 0.55sec, throughput performance is 94%, bandwidth is 55bits/sec, Network security is 92%, and the transmission ratio is 89%, attack detection is 90%.

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来源期刊

Recent Patents on Engineering Engineering-Engineering (all)

CiteScore

1.40

自引率

0.00%

发文量

100

期刊介绍： Recent Patents on Engineering publishes review articles by experts on recent patents in the major fields of engineering. A selection of important and recent patents on engineering is also included in the journal. The journal is essential reading for all researchers involved in engineering sciences.