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Article type: Research Article
Authors: Chehreghani, Mostafa Haghira; * | Bifet, Albertb | Abdessalem, Talelb
Affiliations: [a] Department of Computer Engineering, Amirkabir University of Technology (Tehran Polytechnic), Iran. [email protected] | [b] LTCI, Télécom-Paris, IP-Paris, France, [email protected], [email protected]
Correspondence: [*] Address for correspondence: Department of Computer Engineering, Amirkabir University of Technology (Tehran Polytechnic), No. 350, Hafez Ave., Valiasr Square, Tehran, Iran.
Abstract: Graphs (networks) are an important tool to model data in different domains. Realworld graphs are usually directed, where the edges have a direction and they are not symmetric. Betweenness centrality is an important index widely used to analyze networks. In this paper, first given a directed network G and a vertex r ∈ V (G), we propose an exact algorithm to compute betweenness score of r. Our algorithm pre-computes a set ℛ𝒱(r), which is used to prune a huge amount of computations that do not contribute to the betweenness score of r. Time complexity of our algorithm depends on |ℛ𝒱(r)| and it is respectively Θ(|ℛ𝒱(r)| · |E(G)|) and Θ(|ℛ𝒱(r)| · |E(G)| + |ℛ𝒱(r)| · |V(G)| log |V(G)|) for unweighted graphs and weighted graphs with positive weights. |ℛ𝒱(r)| is bounded from above by |V(G)| – 1 and in most cases, it is a small constant. Then, for the cases where ℛ𝒱(r) is large, we present a simple randomized algorithm that samples from ℛ𝒱(r) and performs computations for only the sampled elements. We show that this algorithm provides an (ɛ, δ)-approximation to the betweenness score of r. Finally, we perform extensive experiments over several real-world datasets from different domains for several randomly chosen vertices as well as for the vertices with the highest betweenness scores. Our experiments reveal that for estimating betweenness score of a single vertex, our algorithm significantly outperforms the most efficient existing randomized algorithms, in terms of both running time and accuracy. Our experiments also reveal that our algorithm improves the existing algorithms when someone is interested in computing betweenness values of the vertices in a set whose cardinality is very small.
Keywords: Social networks, directed graphs, betweenness centrality, exact algorithm, approximate algorithm
DOI: 10.3233/FI-2021-2071
Journal: Fundamenta Informaticae, vol. 182, no. 3, pp. 219-242, 2021
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