Local dominance unveils clusters in networks

Dingyi Shi; Fan Shang; Bingsheng Chen; Paul Expert; Linyuan Lü; H. Eugene Stanley; Renaud Lambiotte; Tim S. Evans; Ruiqi Li

doi:10.1038/s42005-024-01635-4

Communications Physics (May 2024)

Local dominance unveils clusters in networks

Dingyi Shi,
Fan Shang,
Bingsheng Chen,
Paul Expert,
Linyuan Lü,
H. Eugene Stanley,
Renaud Lambiotte,
Tim S. Evans,
Ruiqi Li

Affiliations

Dingyi Shi: UrbanNet Lab, College of Information Science and Technology, Beijing University of Chemical Technology
Fan Shang: UrbanNet Lab, College of Information Science and Technology, Beijing University of Chemical Technology
Bingsheng Chen: UrbanNet Lab, College of Information Science and Technology, Beijing University of Chemical Technology
Paul Expert: Global Business School for Health, University College London
Linyuan Lü: School of Cyberspace Security, University of Science and Technology of China
H. Eugene Stanley: Center for Polymer Studies and Physics Department, Boston University
Renaud Lambiotte: Mathematical Institute, University of Oxford
Tim S. Evans: Centre for Complexity Science, Imperial College London
Ruiqi Li: UrbanNet Lab, College of Information Science and Technology, Beijing University of Chemical Technology

DOI: https://doi.org/10.1038/s42005-024-01635-4
Journal volume & issue: Vol. 7, no. 1
pp. 1 – 13

Abstract

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Abstract Clusters or communities can provide a coarse-grained description of complex systems at multiple scales, but their detection remains challenging in practice. Community detection methods often define communities as dense subgraphs, or subgraphs with few connections in-between, via concepts such as the cut, conductance, or modularity. Here we consider another perspective built on the notion of local dominance, where low-degree nodes are assigned to the basin of influence of high-degree nodes, and design an efficient algorithm based on local information. Local dominance gives rises to community centers, and uncovers local hierarchies in the network. Community centers have a larger degree than their neighbors and are sufficiently distant from other centers. The strength of our framework is demonstrated on synthesized and empirical networks with ground-truth community labels. The notion of local dominance and the associated asymmetric relations between nodes are not restricted to community detection, and can be utilised in clustering problems, as we illustrate on networks derived from vector data.

Published in Communications Physics

ISSN: 2399-3650 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science: Astronomy: Astrophysics; Science: Physics
Website: https://www.nature.com/commsphys/

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