Interconnecting disjoint network segments using a mix of stationary and mobile nodes

37th Annual IEEE Conference on Local Computer Networks Pub Date : 2012-10-22 DOI:10.1109/LCN.2012.6423631

Ahmad Abbas, M. Younis

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引用次数: 9

Abstract

In many applications need arises to connect a set of disjoint nodes or segments. Examples include repairing a partitioned network topology after the failure of multiple nodes, federating a set of standalone networks to serve an emerging event, and forming a strongly connected topology for a sparsely located data sources. Contemporary solutions for interconnecting these disjoint segments/nodes either deploy stationary relay nodes (RN) to form data paths or employ one or multiple mobile data collectors (MDCs) that pick packets from sources and transport them to destinations. The RN-based solution is preferred since it establishes permanent links as opposed to the intermittent links provided by the MDCs. In this paper we investigate the interconnection problem when the number of available RNs is insufficient for forming a stable topology and a mix of RNs and MDCs is to be used. We present an algorithm for determining where the RNs are to be placed and planning optimized travel routes for the MDCs so that the data delivery latency as well as the MDC motion overhead are minimized. The performance of the algorithm is validated through simulation.

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使用固定和移动节点的混合连接不连接的网络段

在许多应用中，需要连接一组不相交的节点或段。示例包括在多个节点发生故障后修复分区的网络拓扑，联合一组独立网络以服务新出现的事件，以及为位置稀疏的数据源形成强连接拓扑。用于连接这些不连接的段/节点的现代解决方案要么部署固定中继节点(RN)以形成数据路径，要么使用一个或多个移动数据收集器(mdc)从源端拾取数据包并将其传输到目的地。基于路由的解决方案是首选的，因为它建立永久链接，而不是mdc提供的间歇性链接。在本文中，我们研究了当可用的rn数量不足以形成稳定的拓扑结构，并且使用rn和mdc混合使用时的互连问题。我们提出了一种算法，用于确定rn的放置位置，并为MDC规划优化的旅行路线，从而最大限度地减少数据传输延迟和MDC运动开销。通过仿真验证了该算法的性能。

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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37th Annual IEEE Conference on Local Computer Networks

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