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Article Dans Une Revue PLoS Computational Biology Année : 2023

Contact networks have small metric backbones that maintain community structure and are primary transmission subgraphs

Résumé

The structure of social networks strongly affects how different phenomena spread in human society, from the transmission of information to the propagation of contagious diseases. It is well-known that heterogeneous connectivity strongly favors spread, but a precise characterization of the redundancy present in social networks and its effect on the robustness of transmission is still lacking. This gap is addressed by the metric backbone, a weight- and connectivity-preserving subgraph that is sufficient to compute all shortest paths of weighted graphs. This subgraph is obtained via algebraically-principled axioms and does not require statistical sampling based on null-models. We show that the metric backbones of nine contact networks obtained from proximity sensors in a variety of social contexts are generally very small, 49% of the original graph for one and ranging from about 6% to 20% for the others. This reflects a surprising amount of redundancy and reveals that shortest paths on these networks are very robust to random attacks and failures. We also show that the metric backbone preserves the full distribution of shortest paths of the original contact networks—which must include the shortest inter- and intra-community distances that define any community structure—and is a primary subgraph for epidemic transmission based on pure diffusion processes. This suggests that the organization of social contact networks is based on large amounts of shortest-path redundancy which shapes epidemic spread in human populations. Thus, the metric backbone is an important subgraph with regard to epidemic spread, the robustness of social networks, and any communication dynamics that depend on complex network shortest paths.
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hal-04003109 , version 1 (23-02-2023)

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Paternité - Pas d'utilisation commerciale - Partage selon les Conditions Initiales

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Rion Brattig Correia, Alain Barrat, Luis M Rocha. Contact networks have small metric backbones that maintain community structure and are primary transmission subgraphs. PLoS Computational Biology, 2023, 19 (2), pp.e1010854. ⟨10.1371/journal.pcbi.1010854⟩. ⟨hal-04003109⟩
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