Topology Preserving Map to Physical Map - A Thin-Plate Spline Based Transform

2016 IEEE 41st Conference on Local Computer Networks (LCN) Pub Date : 2016-11-01 DOI:10.1109/LCN.2016.54

Ali F. Buoud, A. Jayasumana

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引用次数: 6

Abstract

A Topology Preserving Map (TPM) is an easily obtainable localization free connectivity based map that preserves physical layout features of 2D/3D sensor networks. This paper considers how to obtain physical maps and physical coordinates from a TPM when the physical locations of a subset of nodes are known. First, we present a General Procrustes Alignment (GPA) based solution, which is the optimal linear transformation solution to the problem. Second approach is based on thin-plate spline (TPS), which transforms the set of topology coordinates to physical coordinates using radial basis functions. Five representative 2D network topologies are used to evaluate and compare the TPS approach with GPA approach, and also with the existing distance vector-hop (DV-Hop) technique. Results are presented for the cases where the reference nodes are selected randomly from the entire network, or randomly from the inner and outer boundaries of the network. The results show that with less than 10% of nodes as reference nodes, a map with an average error less than 0.6 of radio range can be achieved with the TPS approach, which significantly outperforms both the GPA and the DV-Hop. TPS approach generalizes directly to 3-D networks as well.

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拓扑保持映射到物理映射——基于薄板样条的变换

拓扑保持图(TPM)是一种易于获得的基于局部自由连接的地图，它保留了2D/3D传感器网络的物理布局特征。本文考虑了当一组节点的物理位置已知时，如何从TPM获取物理映射和物理坐标。首先，我们提出了一个基于通用Procrustes对齐(GPA)的解决方案，这是该问题的最优线性变换解决方案。第二种方法是基于薄板样条(TPS)，利用径向基函数将拓扑坐标集合转换为物理坐标。利用五种典型的二维网络拓扑，对TPS方法与GPA方法以及现有的距离矢量跳(DV-Hop)技术进行了评价和比较。给出了从整个网络中随机选择参考节点或从网络的内外边界随机选择参考节点的结果。结果表明，在小于10%的节点作为参考节点的情况下，TPS方法可以获得无线电距离平均误差小于0.6的地图，显著优于GPA和DV-Hop方法。TPS方法也可以直接推广到三维网络。

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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2016 IEEE 41st Conference on Local Computer Networks (LCN)

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