Applications for Vehicle Ad HOC Networks and Associated Technical Issues

2022 5th International Conference on Contemporary Computing and Informatics (IC3I) Pub Date : 2022-12-14 DOI:10.1109/IC3I56241.2022.10072662

R. Raman, Rajesh Singh, Soumyashree Sabat, Shivaji Bothe, Shalini Singh, Lalit Thakur

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引用次数: 1

Abstract

The experienced environment of vehicular ad hoc networks (VANETs), like signal-to-noise ratio (SNR), speed, and traffic movement, regularly changes as automobiles proceed along a roadway. The systems make use of VANETs, and they comprise remote services like traffic warnings and weather reporting, vehicle-to-vehicle as well as vehicle-to-roadside facility communications. Nevertheless, since the device nodes in these networks frequently have limited resources, they make use of edge computing, wireless technology, as well as data analytics to enhance the total driving expertise by impacting facets like security, dependability, solace, and financial effectiveness. The goal of this research paper is to discover and emphasize unresolved issues that must be resolved in order to safeguard and effectively combine limited IoT devices with powerful cloud services. In this article, we provide a situation for context-aware content sharing for VANETs and list the precise conditions needed to make it happen. Researchers employ FogNetSim++to simulate various VANET conditions in terms of lag and data rate, revealing issues and openings for further study.

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车载Ad HOC网络的应用及相关技术问题

车辆自组织网络(vanet)的经验环境，如信噪比(SNR)、速度和交通运动，会随着汽车在道路上行驶而定期变化。这些系统利用VANETs，它们包括远程服务，如交通警报和天气报告、车对车以及车对路边设施通信。然而，由于这些网络中的设备节点通常资源有限，因此它们利用边缘计算、无线技术以及数据分析，通过影响安全性、可靠性、安慰性和财务效率等方面来提高整体驾驶专业水平。本研究论文的目标是发现和强调必须解决的未解决问题，以保护和有效地将有限的物联网设备与强大的云服务结合起来。在本文中，我们为vanet提供了一种上下文感知内容共享的情况，并列出了实现这种情况所需的确切条件。研究人员使用FogNetSim++模拟了各种VANET条件下的延迟和数据速率，揭示了问题和进一步研究的空间。

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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2022 5th International Conference on Contemporary Computing and Informatics (IC3I)

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