Efficient relay deployment for controlling connectivity in delay tolerant mobile networks

Proceedings of the 16th ACM international conference on Modeling, analysis & simulation of wireless and mobile systems Pub Date : 2013-11-03 DOI:10.1145/2507924.2507966

Zhiyu Wang, M. Nascimento, M. MacGregor

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Abstract

In mobile networks, node movements may lead to a situation called network partition where an end-to-end path may never exist because the network is divided into several isolated subnetworks. Deploying stationary relays introduces new transmission opportunities leading to the improvement of network connectivity and performance. The majority of the proposed solutions concentrated on deploying the minimum number of relays in the network. However, relay deployment should also be resilient regarding relay node failures. In this paper, we show how the relay deployment problem can be modelled as a k-element connectivity problem in which multiple relay-disjoint paths are deployed to connect isolated subnetworks. To solve this problem, we present three heuristic algorithms targeting at finding the minimum number of relays to form k-element connected networks. Our experiments using synthetic and real data showed that the proposed greedy algorithm is 2 or 3 orders of magnitude faster and never worse than the other two algorithms.

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在容延迟移动网络中控制连通性的有效中继部署

在移动网络中，节点的移动可能会导致一种叫做网络分区的情况，在这种情况下，端到端路径可能永远不存在，因为网络被分成了几个孤立的子网。部署固定中继引入了新的传输机会，从而改善了网络连接和性能。大多数提出的解决方案集中于在网络中部署最小数量的中继。但是，对于中继节点故障，中继部署也应该具有弹性。在本文中，我们展示了如何将中继部署问题建模为k元素连接问题，其中多个中继不相交路径被部署以连接孤立的子网。为了解决这一问题，我们提出了三种启发式算法，旨在寻找形成k元连接网络的最小中继数量。我们使用合成数据和实际数据进行的实验表明，所提出的贪心算法比其他两种算法快2到3个数量级，并且不会差。

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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Proceedings of the 16th ACM international conference on Modeling, analysis & simulation of wireless and mobile systems

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