Lightweight neighborhood cardinality estimation in dynamic wireless networks

IPSN-14 Proceedings of the 13th International Symposium on Information Processing in Sensor Networks Pub Date : 2014-04-15 DOI:10.1109/IPSN.2014.6846751

M. Cattani, Marco Zúñiga, Andreas Loukas, K. Langendoen

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引用次数: 24

Abstract

We address the problem of estimating the neighborhood cardinality of nodes in dynamic wireless networks. Different from previous studies, we consider networks with high densities (a hundred neighbors per node) and where all nodes estimate cardinality concurrently. Performing concurrent estimations on dense mobile networks is hard; we need estimators that are not only accurate, but also fast, asynchronous (due to mobility) and lightweight (due to concurrency and high density). To cope with these requirements, we propose Estreme, a neighborhood cardinality estimator with extremely low overhead that leverages the rendezvous time of low-power medium access control (MAC) protocols. We implemented Estreme on the Contiki OS and show a significant improvement over the state-of-the-art. With Estreme, 100 nodes can concurrently estimate their neighborhood cardinality with an error of ≈10%. State-of-the-art solutions provide a similar accuracy, but on networks consisting of a few tens of nodes and where only a fraction of nodes estimate the cardinality concurrently.

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动态无线网络中的轻量级邻域基数估计

研究了动态无线网络中节点邻域基数的估计问题。与以前的研究不同，我们考虑了高密度网络(每个节点有100个邻居)，并且所有节点同时估计基数。在密集的移动网络中进行并发估计是困难的;我们需要的估计器不仅要准确，而且要快速、异步(由于移动性)和轻量级(由于并发性和高密度)。为了满足这些需求，我们提出了Estreme，一个开销极低的邻域基数估计器，它利用了低功耗介质访问控制(MAC)协议的会合时间。我们在Contiki操作系统上实现了Estreme，并显示出比最先进的技术有了显著的改进。使用Estreme, 100个节点可以同时估计它们的邻域基数，误差约为10%。最先进的解决方案提供了类似的精度，但在由几十个节点组成的网络上，只有一小部分节点同时估计基数。

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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IPSN-14 Proceedings of the 13th International Symposium on Information Processing in Sensor Networks

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