Routing in intermittently connected sensor networks

2008 IEEE International Conference on Network Protocols Pub Date : 2008-12-08 DOI:10.1109/ICNP.2008.4697046

Lu Su, Changlei Liu, Hui Song, G. Cao

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引用次数: 50

Abstract

To prolong the lifetime of sensor networks, various scheduling schemes have been designed to reduce the number of active sensors. However, some scheduling strategies, such as partial coverage scheduling and target coverage scheduling, may result in disconnected network topologies, due to the low density of the active nodes. In such cases, traditional routing algorithms cannot be applied, and the shortest path discovered by these algorithms may not have the minimum packet delivery latency. In this paper, we address the problem of finding minimum latency routes in intermittently connected sensor networks by proposing an on-demand minimum latency (ODML) routing algorithm. Since on-demand routing algorithm does not work well when the source and destination frequently communicate with each other, we propose two proactive minimum latency routing algorithms: optimal-PML and quick-PML. Theoretical analysis and simulation results show that (1) ODML can effectively identify minimum latency routes which have much smaller latency than the shortest path, and (2) optimal-PML can minimize the routing message overhead and quick-PML can significantly reduce the route acquisition delay.

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间歇连接传感器网络中的路由

为了延长传感器网络的生命周期，人们设计了各种调度方案来减少主动传感器的数量。然而，某些调度策略，如部分覆盖调度和目标覆盖调度，由于活动节点密度低，可能导致网络拓扑断开。在这种情况下，传统的路由算法无法应用，并且这些算法发现的最短路径可能没有最小的数据包发送延迟。在本文中，我们通过提出一种按需最小延迟(ODML)路由算法来解决在间歇性连接的传感器网络中寻找最小延迟路由的问题。由于按需路由算法在源端和目的端频繁通信时不能很好地工作，我们提出了两种主动最小延迟路由算法:optimal-PML和quick-PML。理论分析和仿真结果表明:(1)ODML可以有效地识别比最短路径延迟小得多的最小延迟路由;(2)optimal-PML可以最大限度地减少路由消息开销，而快速pml可以显著降低路由获取延迟。

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 International Conference on Network Protocols

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