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Autore principale: Yang, Renchi
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2402.12623
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author Yang, Renchi
author_facet Yang, Renchi
contents Given a network G, edge centrality is a metric used to evaluate the importance of edges in G, which is a key concept in analyzing networks and finds vast applications involving edge ranking. In spite of a wealth of research on devising edge centrality measures, they incur either prohibitively high computation costs or varied deficiencies that lead to sub-optimal ranking quality. To overcome their limitations, this paper proposes ECHO, a new centrality measure for edge ranking that is formulated based on neighborhood-based optimization objectives. We provide in-depth theoretical analyses to unveil the mathematical definitions and intuitive interpretations of the proposed ECHO measure from diverse aspects. Based thereon, we present three linear-complexity algorithms for ECHO estimation with non-trivial theoretical accuracy guarantees for centrality values. Extensive experiments comparing ECHO against six existing edge centrality metrics in graph analytics tasks on real networks showcase that ECHO offers superior practical effectiveness while offering high computation efficiency.
format Preprint
id arxiv_https___arxiv_org_abs_2402_12623
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Effective Edge Centrality via Neighborhood-based Optimization
Yang, Renchi
Social and Information Networks
Given a network G, edge centrality is a metric used to evaluate the importance of edges in G, which is a key concept in analyzing networks and finds vast applications involving edge ranking. In spite of a wealth of research on devising edge centrality measures, they incur either prohibitively high computation costs or varied deficiencies that lead to sub-optimal ranking quality. To overcome their limitations, this paper proposes ECHO, a new centrality measure for edge ranking that is formulated based on neighborhood-based optimization objectives. We provide in-depth theoretical analyses to unveil the mathematical definitions and intuitive interpretations of the proposed ECHO measure from diverse aspects. Based thereon, we present three linear-complexity algorithms for ECHO estimation with non-trivial theoretical accuracy guarantees for centrality values. Extensive experiments comparing ECHO against six existing edge centrality metrics in graph analytics tasks on real networks showcase that ECHO offers superior practical effectiveness while offering high computation efficiency.
title Effective Edge Centrality via Neighborhood-based Optimization
topic Social and Information Networks
url https://arxiv.org/abs/2402.12623