Centrality Metrics-Based Connected Dominating Sets for Real-World Network Graphs

Strategic Innovations and Interdisciplinary Perspectives in Telecommunications and Networking Pub Date : 1900-01-01 DOI:10.4018/978-1-5225-8188-8.CH001

N. Meghanathan, Atiqur Rahman, Mahzabin Akhter

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Abstract

The authors investigate the use of centrality metrics as node weights to determine connected dominating sets (CDS) for a suite of 60 real-world network graphs of diverse degree distribution. They employ centrality metrics that are neighborhood-based (degree centrality [DEG] and eigenvector centrality [EVC]), shortest path-based (betweenness centrality [BWC] and closeness centrality [CLC]) as well as the local clustering coefficient complement-based degree centrality metric (LCC'DC), which is a hybrid of the neighborhood and shortest path-based categories. The authors target for minimum CDS node size (number of nodes constituting the CDS). Though both the BWC and CLC are shortest path-based centrality metrics, they observe the BWC-based CDSs to be of the smallest node size for about 60% of the real-world networks and the CLC-based CDSs to be of the largest node size for more than 40% of the real-world networks. The authors observe the computationally light LCC'DC-based CDS node size to be the same as the computationally heavy BWC-based CDS node size for about 50% of the real-world networks.

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基于中心性度量的真实网络图连通支配集

作者研究了使用中心性度量作为节点权重来确定60个不同程度分布的真实网络图的连接支配集(CDS)。他们采用了基于邻域(度中心性[DEG]和特征向量中心性[EVC])、基于最短路径(中间性中心性[BWC]和接近性中心性[CLC])以及基于局部聚类系数互补的度中心性度量(LCC'DC)的中心性度量，它是基于邻域和基于最短路径类别的混合。作者的目标是最小CDS节点大小(构成CDS的节点数量)。尽管BWC和CLC都是基于最短路径的中心性指标，但他们观察到，在大约60%的真实网络中，基于BWC的cds具有最小的节点大小，而在超过40%的真实网络中，基于CLC的cds具有最大的节点大小。作者观察到，在50%的真实网络中，基于LCC' dc的计算轻量级CDS节点大小与基于bwc的计算重型CDS节点大小相同。

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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Strategic Innovations and Interdisciplinary Perspectives in Telecommunications and Networking

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