传感器网络中的连通性感知路由

2007 International Conference on Sensor Technologies and Applications (SENSORCOMM 2007) Pub Date : 2007-10-14 DOI:10.1109/SENSORCOMM.2007.38

P. Kumar, J. Kuri, P. Nuggehalli, M. Strasser, M. May, B. Plattner

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引用次数: 13

摘要

环境监测等传感器网络应用要求数据收集过程尽可能长时间地进行。我们的论文通过提出一种路由方案来解决这个问题，该方案确保监控网络保持连接，因此实时传感器节点可以在更长的时间内传递数据。我们分析了中继节点(基站的邻居)在维持网络连通性方面的作用，并提出了一种路由策略，对于特定类型的网络，随着中继节点集的增加，路由策略趋于最优。然后，我们使用这些发现来开发一个使用基于潜在路由的适当的分布式路由协议。基于势的路由的基本思想是在网络中的每个节点上定义一个(标量)势值，并将数据转发给势值最高的邻居。我们提出了一个势函数，并通过仿真对其性能进行了评价。结果表明，我们的方法优于Chang和Tassiulas(2004)提出的众所周知的生命周期最大化策略，以及Perkins(1997)提出的AODV [Adhoc on demand distance vector routing]。

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Connectivity-Aware Routing in Sensor Networks

Sensor network applications such as environmental monitoring demand that the data collection process be carried out for the longest possible time. Our paper addresses this problem by presenting a routing scheme that ensures that the monitoring network remains connected and hence the live sensor nodes deliver data for a longer duration. We analyze the role of relay nodes (neighbours of the base-station) in maintaining network connectivity and present a routing strategy that, for a particular class of networks, approaches the optimal as the set of relay nodes becomes larger. We then use these findings to develop an appropriate distributed routing protocol using potential-based routing. The basic idea of potential-based routing is to define a (scalar) potential value at each node in the network and forward data to the neighbor with the highest potential. We propose a potential function and evaluate its performance through simulations. The results show that our approach performs better than the well known lifetime maximization policy proposed by Chang and Tassiulas (2004), as well as AODV [Adhoc on demand distance vector routing] proposed by Perkins (1997).

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2007 International Conference on Sensor Technologies and Applications (SENSORCOMM 2007)

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