Hybrid geo-routing in urban vehicular networks

2013 IEEE Vehicular Networking Conference Pub Date : 2013-12-01 DOI:10.1109/VNC.2013.6737591

Aisling O'Driscoll, D. Pesch

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引用次数: 13

Abstract

It is expected that future vehicular networks will consist of a combination of ad-hoc network and infrastructure components. Road Side Units (RSUs) will form part of the infrastructure element. However, it is anticipated that a fully deployed RSU infrastructure may not be economically feasible in the short term, therefore, a partial infrastructure in urban environments is more likely, at least initially while vehicular networks are being adopted. It is further likely that low vehicle penetration rates will exist while 802.11p On-Board Unit (OBU) technology is being rolled out, thus routing schemes should exploit infrastructure where available to improve packet delivery. This paper presents a hybrid vehicular routing protocol that facilitates unicast routing by dynamically changing its routing decisions in the presence of RSU infrastructure in order to maximise packet delivery rate. A quantitative evaluation of the proposed Infrastructure Enhanced Geographic Routing Protocol (IEGRP) is provided as a function of varied source to destination distances, vehicular densities, infrastructure availability and application QoS characteristics. It exhibits much improved delivery rates with partial and full infrastructure compared to related protocols.

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城市车辆网络中的混合地理路由

预计未来的车辆网络将由ad-hoc网络和基础设施组件的组合组成。路旁单位将构成基础设施的一部分。然而，预计在短期内，完全部署的RSU基础设施在经济上可能不可行，因此，在城市环境中更有可能部署部分基础设施，至少在最初采用车辆网络时是这样。在推出802.11p车载单元(OBU)技术的同时，车辆普及率可能还会很低，因此路由方案应该利用可用的基础设施来改善数据包传输。本文提出了一种混合车辆路由协议，该协议通过在RSU基础设施存在的情况下动态改变其路由决策来促进单播路由，以最大化分组传输速率。对提议的基础设施增强型地理路由协议(IEGRP)进行了定量评估，作为不同源到目的地距离、车辆密度、基础设施可用性和应用QoS特征的函数。与相关协议相比，它在部分和完整基础架构下的交付率大大提高。

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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2013 IEEE Vehicular Networking Conference

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