English

Hyper-cores promote localization and efficient seeding in higher-order processes

Physics and Society 2023-10-11 v2 Social and Information Networks

Abstract

Going beyond networks, to include higher-order interactions of arbitrary sizes, is a major step to better describe complex systems. In the resulting hypergraph representation, tools to identify structures and central nodes are scarce. We consider the decomposition of a hypergraph in hyper-cores, subsets of nodes connected by at least a certain number of hyperedges of at least a certain size. We show that this provides a fingerprint for data described by hypergraphs and suggests a novel notion of centrality, the hyper-coreness. We assess the role of hyper-cores and nodes with large hyper-coreness in higher-order dynamical processes: such nodes have large spreading power and spreading processes are localized in central hyper-cores. Additionally, in the emergence of social conventions very few committed individuals with high hyper-coreness can rapidly overturn a majority convention. Our work opens multiple research avenues, from comparing empirical data to model validation and study of temporally varying hypergraphs.

Keywords

Cite

@article{arxiv.2301.04235,
  title  = {Hyper-cores promote localization and efficient seeding in higher-order processes},
  author = {Marco Mancastroppa and Iacopo Iacopini and Giovanni Petri and Alain Barrat},
  journal= {arXiv preprint arXiv:2301.04235},
  year   = {2023}
}

Comments

Main document: 13 pages, 6 figures; Supplementary Material: 47 pages, 40 figures

R2 v1 2026-06-28T08:08:56.610Z