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Distance backbones optimize spreading dynamics and centrality ranks in the sparsification of complex networks

dc.contributor.authorPereira, Bernardo
dc.contributor.authorCosta, Felipe Xavier
dc.contributor.authorRocha, Luís M.
dc.date.accessioned2026-03-23T11:03:02Z
dc.date.available2026-03-23T11:03:02Z
dc.date.issued2026-03-19
dc.description.abstractDetailed network models of social, biological and other complex systems are often dense, which increases their computational complexity in simulations and analysis. To address this challenge, graph sparsification is used to remove edges while preserving desired network properties. Distance backbones of weighted graphs, which remove edges that break a generalized triangle inequality for any given path-length measure, preserve all shortest paths of weighted graphs. They have been shown to typically sparsify graphs more, as well as preserve community structure and spreading dynamics better than alternative state-of-the-art methods. Here, We show that they significantly best preserve node centrality ranks, as well as local and global dynamics in spreading phenomena. This is done by introducing the distance backbone synthesis (DBS) to progressively sparsify weighted graphs according to a general family of nested distance backbones, whereby each edge is associated with the smallest distance backbone in which it appears. DBS provides a principled and natural method to sweep all degrees of sparsification possible while preserving connectivity, allowing us to precisely study (directed and undirected) weighted graph sparsification under multi-objective criteria. It provides an algebraically-principled explanation of edge importance by revealing the precise topological space associated with each edge. The theory is demonstrated with a battery of social contact networks obtained from real-world social activity in different scenarios. Our study also shows that the optimal preservation of node centrality and spreading dynamics happens for the distance backbone obeying the generalized triangle inequality for the path-length measure g(x, y) = (?3 x + ?3 y) 3 , which removes more than half of the edges from the empirical networks studied.eng
dc.identifier.citationPereira, B., Costa, F. X., & Rocha, L. M. (2026). Distance backbones optimize spreading dynamics and centrality ranks in the sparsification of complex networks. arXiv.
dc.identifier.otherb4419bf3-bcdc-4453-94c2-920607853b53
dc.identifier.urihttp://hdl.handle.net/10400.14/57418
dc.language.isoeng
dc.peerreviewedno
dc.publisherarXiv
dc.rights.urihttp://creativecommons.org/licenses/by-sa/4.0/
dc.subjectDistance backbones
dc.subjectNode centrality
dc.subjectSocial contact networks
dc.subjectSparsification
dc.subjectSpreading dynamics
dc.titleDistance backbones optimize spreading dynamics and centrality ranks in the sparsification of complex networkseng
dc.typepreprint
dspace.entity.typePublication
oaire.versionhttp://purl.org/coar/version/c_970fb48d4fbd8a85

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