An upper bound on multi-hop transmission capacity with dynamic routing selection

International Symposium on Information Theory and its Applications. International Symposium on Information Theory and its Applications Pub Date : 2010-06-13 DOI:10.1109/ISIT.2010.5513248

Yuxin Chen, J. Andrews

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引用次数: 14

Abstract

This paper develops an upper bound on the end-to-end transmission capacity of multi-hop wireless networks, in which all nodes are randomly distributed. Potential source-destination paths are dynamically selected from a pool of randomly located relays, from which a closed-form bound on the outage probability is derived in terms of the number of potential paths. This in turn gives an upper bound on the number of successful transmissions that can occur per unit area, which is known as the transmission capacity. The upper bound results from assuming independence among the potential paths, and can be viewed as the maximum diversity case. A useful aspect of the upper bound is its simple form for an arbitrary-sized network, which allows us to immediately observe how the number of hops and other network traits affect spatial throughput. Our analysis indicates that predetermined routing approach (such as nearest-neighbor) cannot achieve optimal throughput: more hops are not necessarily helpful in interference-limited networks compared with single-hop direct transmission.

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基于动态路由选择的多跳传输容量上限

本文给出了节点随机分布的多跳无线网络端到端传输容量的上界。从随机分布的中继池中动态选择潜在的源-目的路径，并根据潜在路径的数量推导出中断概率的封闭形式约束。这反过来又给出了每单位面积上可以成功传输的次数的上限，即传输容量。上界是假设潜在路径之间独立的结果，可以看作是最大多样性的情况。上界的一个有用的方面是它对于任意大小的网络的简单形式，它允许我们立即观察跳数和其他网络特征如何影响空间吞吐量。我们的分析表明，预定路由方法(如最近邻)不能实现最佳吞吐量:与单跳直接传输相比，在限制干扰的网络中，更多的跳不一定有帮助。

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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International Symposium on Information Theory and its Applications. International Symposium on Information Theory and its Applications

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