Colouring Link-Directional Interference Graphs in Wireless Ad Hoc Networks

IEEE GLOBECOM 2007 - IEEE Global Telecommunications Conference Pub Date : 2007-12-26 DOI:10.1109/GLOCOM.2007.166

P. Ng, D. Edwards, S. Liew

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引用次数: 8

Abstract

In this paper, we clarify inter-link interference in wireless ad-hoc networks by using link-directional interference graphs (I-graph). Most of the interference graphs in the literature simply model the DATA and ACK traffic of a link by a single vertex. They fail to capture the link-directionalities. In fact, some instances of directional traffic can actually transmit simultaneously but are prohibited by the interference graphs. Thus, in our link-directional interference graph, a link is represented by two vertices, one for DATA traffic and the other for ACK traffic. We then apply a colouring algorithm in the I-graphs. The colouring results provide insights in order to boost network capacities in TDMA or FDMA ad-hoc networks. We show that the network capacities can be improved by 100% in a triangular topology and 33% in a lattice topology. Simulations also show that a distributed dual channel protocol assigning channels according to link-directionalities can boost the capacities by 70% in large-scale random networks. We believe this is a first paper in the literature to take into account link-directionalities in interference graphs.

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无线自组织网络中链路方向干扰图的着色

本文利用链路方向干扰图(I-graph)来阐明无线自组织网络中的链路间干扰。文献中的大多数干涉图简单地通过单个顶点对链路的DATA和ACK流量进行建模。它们无法捕捉到链接的方向性。事实上，定向通信的一些实例实际上可以同时传输，但被干扰图所禁止。因此，在我们的链路方向干扰图中，链路由两个顶点表示，一个用于DATA流量，另一个用于ACK流量。然后，我们在i -图中应用着色算法。着色结果为提高TDMA或FDMA自组织网络的网络容量提供了见解。我们表明，在三角形拓扑中网络容量可以提高100%，在晶格拓扑中可以提高33%。仿真结果表明，根据链路方向分配信道的分布式双信道协议可以使大规模随机网络的容量提高70%。我们认为这是文献中第一篇考虑干涉图中链接方向性的论文。

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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IEEE GLOBECOM 2007 - IEEE Global Telecommunications Conference

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