Connectivity and Latency in Large-Scale Wireless Networks with Unreliable Links

IEEE INFOCOM 2008 - The 27th Conference on Computer Communications Pub Date : 2008-04-13 DOI:10.1109/INFOCOM.2008.11

Z. Kong, E. Yeh

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引用次数: 70

Abstract

We study connectivity and transmission latency in wireless networks with unreliable links from a percolation-based perspective. We first examine static models, where each link of the network is functional (active) with some probability, independently of all other links, where the probability may depend on the distance between the two nodes. We obtain analytical upper and lower bounds on the critical density for phase transition in this model. We then examine dynamic models, where each link is active or inactive according to a Markov on- off process. We show that a phase transition also exists in such dynamic networks, and the critical density for this model is the same as the one for static networks under some mild conditions. Furthermore, due to the dynamic behavior of links, a delay is incurred for any transmission even when propagation delay is ignored. We study the behavior of this transmission delay and show that the delay scales linearly with the Euclidean distance between the sender and the receiver when the network is in the subcritical phase, and the delay scales sub-linearly with the distance if the network is in the supercritical phase.

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链路不可靠的大规模无线网络中的连通性和延迟

我们从基于渗透的角度研究了链路不可靠的无线网络中的连通性和传输延迟。我们首先检查静态模型，其中网络的每个链路都以一定的概率独立于所有其他链路发挥功能(活动)，其中概率可能取决于两个节点之间的距离。在此模型中，我们得到了相变临界密度的解析上下界。然后我们检查动态模型，其中每个链接根据马尔可夫开关过程是活动的或不活动的。我们证明了在这种动态网络中也存在相变，并且在一些温和的条件下，该模型的临界密度与静态网络的临界密度相同。此外，由于链路的动态特性，即使忽略传播延迟，任何传输也会产生延迟。我们研究了这种传输延迟的行为，表明当网络处于亚临界阶段时，延迟与发送方和接收方之间的欧氏距离呈线性关系，当网络处于超临界阶段时，延迟与距离呈亚线性关系。

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 INFOCOM 2008 - The 27th Conference on Computer Communications

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