Machine Learning Based Secure Routing Protocol with Uav-Assisted for Autonomous Vehicles

Q3 Mathematics

International Journal of Sensors, Wireless Communications and Control Pub Date : 2024-01-19 DOI:10.2174/0122103279273609231213075003

A. D. Sree, Kapil Sharma

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引用次数: 0

Abstract

The topology and communication links of vehicular adhoc networks, or VANETs, are always changing due to the transient nature of automobiles. VANETs are a subset of MANETs that have applications in the transportation sector, specifically in Intelligent Transportation Systems (ITS). Routing in these networks is challenging due to frequent link detachments, rapid topological changes, and high vehicle mobility. As a result, there are many obstacles and constraints in the way of creating an effective routing protocol that satisfies latency restrictions with minimal overhead. Malicious vehicle detection is also a crucial role in VANETs. Unmanned-Aerial-Vehicles(UAVs) can be useful for overcoming these constraints. This study examines the utilize of UAVs operating in an adhoc form and cooperating via cars VANETs to aid in the routing and detection of hostile vehicles. VANET is a routing protocol. The proposed UAV-assisted routing protocol (VRU) incorporates two separate protocols for routing data: (1) a protocol called VRU_vu for delivering data packets amid vehicles with the assist of UAVs, and (2) a protocol called VRU_u for routing data packets amid UAVs. To estimate the efficacy of VRU routing objects in a metropolitan setting, we run the NS-2.35 simulator under Linux Ubuntu 12.04. Vehicle and UAV motions can also be generated with the help of the mobility generator VanetMobiSim and the mobility simulation software MobiSim. According to the results of the performance analysis, the VRU-protocol is able to outperform the other evaluated routing protocols in terms of packet-delivery-ratio (by 17 percent) &detection-ratio (9 percent). The VRU protocol cuts overhead near 41% and reduces end-to-enddelay in mean of 15%.

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基于机器学习的自动驾驶汽车 UAV 辅助安全路由协议

由于汽车的瞬时性，车载 adhocnetworks 或 VANET 的拓扑结构和通信链路总是在不断变化。VANET 是 MANET 的一个子集，应用于交通领域，特别是智能交通系统 (ITS)。由于链路分离频繁、拓扑变化快、车辆流动性大，这些网络中的路由选择具有挑战性。因此，要创建一个有效的路由选择协议，既能满足延迟限制，又能将开销降到最低，存在许多障碍和限制。恶意车辆检测在 VANET 中也起着至关重要的作用。无人驾驶飞行器（UAV）可以帮助克服这些限制。本研究探讨了如何利用以 adhoc 形式运行并通过汽车 VANET 进行合作的无人机来协助路由选择和检测敌方车辆。所提出的无人机辅助路由协议（VRU）包含两个独立的数据路由协议：（1）一个名为VRU_vu的协议，用于在无人机的辅助下在车辆中传递数据包；（2）一个名为VRU_u的协议，用于在无人机中路由数据包。为了评估VRU路由对象在大都市环境中的功效，我们在Linux Ubuntu 12.04下运行了NS-2.35模拟器。根据性能分析结果，VRU 协议在数据包交付率（17%）和检测率（9%）方面优于其他受评估的路由协议。VRU 协议减少了近 41% 的开销，平均减少了 15% 的端到端延迟。

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

International Journal of Sensors, Wireless Communications and Control Engineering-Electrical and Electronic Engineering

CiteScore

2.20

自引率

0.00%

发文量

期刊介绍： International Journal of Sensors, Wireless Communications and Control publishes timely research articles, full-length/ mini reviews and communications on these three strongly related areas, with emphasis on networked control systems whose sensors are interconnected via wireless communication networks. The emergence of high speed wireless network technologies allows a cluster of devices to be linked together economically to form a distributed system. Wireless communication is playing an increasingly important role in such distributed systems. Transmitting sensor measurements and control commands over wireless links allows rapid deployment, flexible installation, fully mobile operation and prevents the cable wear and tear problem in industrial automation, healthcare and environmental assessment. Wireless networked systems has raised and continues to raise fundamental challenges in the fields of science, engineering and industrial applications, hence, more new modelling techniques, problem formulations and solutions are required.