A Multi-Sink Multi-Hop Wireless Sensor Network Over a Square Region: Connectivity and Energy Consumption Issues

2008 IEEE Globecom Workshops Pub Date : 2008-11-01 DOI:10.1109/GLOCOMW.2008.ECP.38

F. Fabbri, C. Buratti, R. Verdone

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引用次数: 28

Abstract

In this paper we present a novel mathematical approach to evaluate the degree of connectivity of a multi- sink wireless sensor network, where sink and sensor nodes are uniformly distributed over a given region. We consider both unbounded and bounded domains, specifically squares, and the impact of border effects is also shown. Random fluctuations as well as a distance-dependent deterministic path-loss are accounted for in our radio channel model. In particular, we deal with randomly shaped wireless footprints, rather than with the less realistic (yet widely adopted) disk model, which is a special case of our channel model. Nodes are organized in a tree-based topology with trees rooted at the sinks (multi-hop communications). The approach allows the computation of the probability that a randomly chosen sensor is not isolated, from which the probability that a certain amount of nodes are connected can be easily derived. The mean energy spent by the network is also accounted for. The model provides guidelines to optimally design the tree-based topology, taking into account connectivity and energy consumption issues.

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方形区域上的多sink多hop无线传感器网络:连通性和能耗问题

在本文中，我们提出了一种新的数学方法来评估多接收器无线传感器网络的连通性，其中接收器和传感器节点均匀分布在给定区域上。我们考虑了无界域和有界域，特别是正方形，并显示了边界效应的影响。在我们的无线电信道模型中考虑了随机波动以及距离相关的确定性路径损失。特别是，我们处理随机形状的无线足迹，而不是不太现实(但被广泛采用)的磁盘模型，这是我们的信道模型的一个特殊情况。节点组织在基于树的拓扑结构中，树以sink(多跳通信)为根。该方法允许计算随机选择的传感器不被隔离的概率，由此可以很容易地推导出一定数量节点连接的概率。网络消耗的平均能量也被计算在内。该模型在考虑连接和能耗问题的情况下，为优化基于树的拓扑结构提供了指导方针。

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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2008 IEEE Globecom Workshops

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