Network performance in IEEE 802.11 and IEEE 802.11p cluster based on VANET

2017 International conference of Electronics, Communication and Aerospace Technology (ICECA) Pub Date : 2017-04-20 DOI:10.1109/ICECA.2017.8212713

Vibhavarsha Prakaulya, Neelu Pareek, Upendra Singh

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引用次数: 6

Abstract

Vehicular ad hoc networks (VANET) are an emerging class of the wireless networks that have emerged because of the recent advances in the wireless technology. VANET is an enhanced form of the Mobile Ad-hoc Network (MANET). The IEEE 802.11standard is based on CSMA/CD and used in both MANET and VANET. An enhanced version IEEE 802.11p is developed for VANET. VANET is a special type of an Intelligent Transport System (ITS), where the mobile nodes are cars, two wheelers, trucks, buses etc., that move on well organized and predefined roads in both the directions at a very high speed. For following the traffic rules, the vehicles provide communication with each other directly (Inter Vehicle Communication-IVC) or indirectly through the Road Side Unit (RSU). Usually thevehicles, which move outside the city area, do not get the response from the RSUas its availability is limited in that area. An attempt has been made to create a new clustering concept for this purpose, which can be applied to a newly created Simple High Way Mobility Model, to increase the speed of the vehicle communication. Thus, this paper focuses the performance of the Packet Delivery Time, Packet Delay Time, Throughput and end to end delay using IEEE 802.11p. This is compared with the values obtained for IEEE802.11 in VANET Environment.

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基于VANET的IEEE 802.11和IEEE 802.11p集群的网络性能

车载自组织网络(VANET)是近年来随着无线技术的发展而出现的一类新兴无线网络。VANET是移动自组网(MANET)的增强形式。IEEE 802.11标准基于CSMA/CD，可用于MANET和VANET。针对VANET开发了增强版IEEE 802.11p。VANET是一种特殊类型的智能交通系统(ITS)，其中的移动节点是汽车、两轮车、卡车、公共汽车等，它们在组织良好、预定义的道路上以非常高的速度向两个方向移动。为了遵守交通规则，车辆之间可以直接通信(Inter Vehicle communication, ivc)，也可以通过路旁单元(Road Side Unit, RSU)间接通信。通常，在市区以外行驶的车辆不会得到rsua的响应，因为其在该地区的可用性有限。为此，我们尝试创建一个新的集群概念，该概念可以应用于新创建的简单高速公路移动模型，以提高车辆通信的速度。因此，本文重点研究了IEEE 802.11p下的分组交付时间、分组延迟时间、吞吐量和端到端延迟的性能。这与IEEE802.11在VANET环境中获得的值进行了比较。

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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2017 International conference of Electronics, Communication and Aerospace Technology (ICECA)

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