A family of centrality measures for graph data based on subgraphs

IF 2.2 2区 计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS
Sebastián Bugedo, Cristian Riveros, Jorge Salas
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引用次数: 0

Abstract

We present the theoretical foundations and first experimental study of a new approach in centrality measures for graph data. The main principle is straightforward: the more relevant subgraphs around a vertex, the more central it is in the network. We formalize the notion of “relevant subgraphs” by choosing a family of subgraphs that, given a graph G and a vertex v, assigns a subset of connected subgraphs of G that contains v. Any of such families defines a measure of centrality by counting the number of subgraphs assigned to the vertex, i.e., a vertex will be more important for the network if it belongs to more subgraphs in the family. We show several examples of this approach. In particular, we propose the All-Subgraphs (All-Trees) centrality, a centrality measure that considers every subgraph (tree). We study fundamental properties over families of subgraphs that guarantee desirable properties over the centrality measure. Interestingly, All-Subgraphs and All-Trees satisfy all these properties, showing their robustness as centrality notions. To conclude the theoretical analysis, we study the computational complexity of counting certain families of subgraphs and show a linear time algorithm to compute the All-Subgraphs and All-Trees centrality for graphs with bounded treewidth. Finally, we implemented these algorithms and computed these measures over more than one hundred real-world networks. With this data, we present an empirical comparison between well-known centrality measures and those proposed in this work.

基于子图的图数据中心性度量系列
我们介绍了图数据中心性度量新方法的理论基础和首次实验研究。其主要原理简单明了:一个顶点周围的相关子图越多,该顶点在网络中的中心地位就越高。我们将 "相关子图 "的概念正规化,即选择一个子图族,在给定一个图 G 和一个顶点 v 的情况下,分配一个包含 v 的 G 的连接子图子集。任何这样的族都通过计算分配给顶点的子图数量来定义中心性度量,也就是说,如果一个顶点属于族中更多的子图,那么它在网络中的重要性就会更高。我们展示了这种方法的几个例子。我们特别提出了全子图(全树)中心度,这是一种考虑到每个子图(树)的中心度量。我们研究了子图族的基本属性,这些属性保证了中心度量的理想属性。有趣的是,全子图和全树满足所有这些属性,这表明它们作为中心性概念的稳健性。在理论分析的最后,我们研究了计算某些子图族的计算复杂度,并展示了一种线性时间算法,用于计算具有有界树宽的图的 All-Subgraphs 和 All-Trees 中心性。最后,我们在一百多个真实世界的网络中实现了这些算法并计算了这些度量。通过这些数据,我们对知名的中心性度量和本文提出的度量进行了实证比较。
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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来源期刊
ACM Transactions on Database Systems
ACM Transactions on Database Systems 工程技术-计算机:软件工程
CiteScore
5.60
自引率
0.00%
发文量
15
审稿时长
>12 weeks
期刊介绍: Heavily used in both academic and corporate R&D settings, ACM Transactions on Database Systems (TODS) is a key publication for computer scientists working in data abstraction, data modeling, and designing data management systems. Topics include storage and retrieval, transaction management, distributed and federated databases, semantics of data, intelligent databases, and operations and algorithms relating to these areas. In this rapidly changing field, TODS provides insights into the thoughts of the best minds in database R&D.
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