Fast Incremental Computation of Harmonic Closeness Centrality in Directed Weighted Networks

2019 IEEE/ACM International Conference on Advances in Social Networks Analysis and Mining (ASONAM) Pub Date : 2019-08-01 DOI:10.1145/3341161.3344829

K. Putman, Hanjo D. Boekhout, Frank W. Takes

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引用次数: 7

Abstract

This paper proposes a novel approach to efficiently compute the exact closeness centrality values of all nodes in dynamically evolving directed and weighted networks. Closeness centrality is one of the most frequently used centrality measures in the field of social network analysis. It uses the total distance to all other nodes to determine node centrality. Previous work has addressed the problem of dynamically updating closeness centrality values for either undirected networks or only for the top-$k$ nodes in terms of closeness centrality. Here, we propose a fast approach for exactly computing all closeness centrality values at each timestamp of directed and weighted evolving networks. Such networks are prevalent in many real-world situations. The main ingredients of our approach are a combination of work filtering methods and efficient incremental updates that avoid unnecessary recomputation. We tested the approach on several real-world datasets of dynamic small-world networks and found that we have mean speed-ups of about 33 times. In addition, the method is highly parallelizable.

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有向加权网络中谐波密切度的快速增量计算

本文提出了一种有效计算动态演化有向和加权网络中所有节点的精确接近中心性值的新方法。亲密中心性是社会网络分析领域中最常用的中心性度量之一。它使用到所有其他节点的总距离来确定节点的中心性。以前的工作已经解决了动态更新无向网络或仅针对顶部$k$节点的接近中心性值的问题。在这里，我们提出了一种快速的方法来精确计算有向和加权进化网络的每个时间戳的所有接近中心性值。这种网络在许多现实世界的情况下都很普遍。我们的方法的主要成分是工作过滤方法和有效的增量更新的结合，避免了不必要的重新计算。我们在几个动态小世界网络的真实数据集上测试了这种方法，发现我们的平均加速速度大约是33倍。此外，该方法具有高度并行性。

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

2019 IEEE/ACM International Conference on Advances in Social Networks Analysis and Mining (ASONAM)

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