An Integrated Scheme for Fully-Directional Neighbor Discovery and Topology Management in Mobile Ad hoc Networks

2006 IEEE International Conference on Mobile Ad Hoc and Sensor Systems Pub Date : 2006-10-01 DOI:10.1109/MOBHOC.2006.278551

Ece Gelal, G. Jakllari, S. Krishnamurthy, N. Young

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引用次数: 20

Abstract

With directional antennas, it is extremely important that a node maintains information with regards to the positions of its neighbors. This would allow the node to "track" the neighbors as they move; otherwise, a node will have to resort to either omnidirectional or circular directional transmissions (or receptions) fairly often. This can be overhead intense and can reduce spatial reuse. Maintaining directional information with regards to a large number of neighbors can itself be expensive; therefore it is important to limit a node's degree. We propose a topology control scheme (Di-ATC) that works with fully directional communications and offers a low degree bound while preserving network connectivity. The key idea is to execute Di-ATC on the discovered neighbors to select and maintain connectivity with only a subset of these neighbors. The members of this subset are those with high angular separations. We perform extensive simulations and demonstrate that our scheme effectively limits node degree while at the same time, preserves network connectivity and achieves low path stretch

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移动Ad hoc网络中全向邻居发现和拓扑管理的集成方案

对于定向天线来说，节点保持其邻居位置的信息是非常重要的。这将允许节点在邻居移动时“跟踪”它们;否则，节点将不得不经常求助于全向或圆形定向传输(或接收)。这可能会增加开销，并减少空间重用。维护大量邻居的方向信息本身就很昂贵;因此，限制节点的度是很重要的。我们提出了一种拓扑控制方案(Di-ATC)，该方案适用于全方向通信，并在保持网络连接的同时提供低度界。关键思想是对发现的邻居执行Di-ATC，以选择和维护仅与这些邻居的一个子集的连通性。这个子集的成员是那些具有高角距的。仿真结果表明，该方案在有效限制节点度的同时，保持了网络的连通性，实现了低路径拉伸

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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2006 IEEE International Conference on Mobile Ad Hoc and Sensor Systems

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