在几何路由中保证交付的空遍历

IEEE International Conference on Mobile Adhoc and Sensor Systems Conference, 2005. Pub Date : 2005-12-12 DOI:10.1109/MAHSS.2005.1542862

Mikhail Nesterenko, Adnan Vora

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引用次数: 14

摘要

像GFG (GPSR)这样的几何路由算法是轻量级的、可扩展的算法，可用于在资源受限的自组织无线网络中进行路由。然而，这种算法只能在平面图形上运行。为了有效地构造一个平面图，他们需要一个单位磁盘图。为了使拓扑结构单元磁盘化，必须保守选择网络中的最大链路长度。在实际设置中，这导致节点密度相当高的设计。而且，平面子图的网络直径比原图大，导致路由更长。为了解决这个问题，我们提出了一种适用于任意几何图形的空遍历算法。我们描述了如何将该算法用于保证交付的几何路由，并将其与GFG的性能进行了比较

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Void traversal for guaranteed delivery in geometric routing

Geometric routing algorithms like GFG (GPSR) are lightweight, scalable algorithms that can be used to route in resource-constrained ad hoc wireless networks. However, such algorithms run on planar graphs only. To efficiently construct a planar graph, they require a unit-disk graph. To make the topology unit-disk, the maximum link length in the network has to be selected conservatively. In practical setting this leads to the designs where the node density is rather high. Moreover, the network diameter of a planar subgraph is greater than the original graph, which leads to longer routes. To remedy this problem, we propose a void traversal algorithm that works on arbitrary geometric graphs. We describe how to use this algorithm for geometric routing with guaranteed delivery and compare its performance with GFG

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IEEE International Conference on Mobile Adhoc and Sensor Systems Conference, 2005.

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