The role of bridge nodes between layers on epidemic spreading

The role of bridge nodes between layers on epidemic spreading

Real networks, like the international airport network and the Internet, are composed of interconnected layers (or communities) through a small fraction of nodes that we call here 'bridge nodes'. These nodes are crucial in the spreading of epidemics because they enable the spread the diseas...

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Bibliographic Details
Published in:New journal of physics 2018-12, Vol.20 (12), p.125003
Main Authors: Valdez, L D, Aragão Rêgo, H H, Stanley, H E, Havlin, S, Braunstein, L A
Format: Article
Language:eng
Subjects:
Airports
epidemic modeling
Epidemics
Model testing
multilayer networks
Nodes
percolation
Power law
SIR model
Online Access:Get full text
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Summary:Real networks, like the international airport network and the Internet, are composed of interconnected layers (or communities) through a small fraction of nodes that we call here 'bridge nodes'. These nodes are crucial in the spreading of epidemics because they enable the spread the disease to the entire system. In this work we study the effect of the bridge nodes on the susceptible-infected-recovered model in a two layer network with a small fraction r of these nodes. In the dynamical process, we theoretically determine that at criticality and for the limit r → 0, the time tb at which the first bridge node is infected diverges as a power-law with r, while above criticality, it appears a crossover between a logarithmic and a power-law behavior. Additionally, in the steady state at criticality, the fraction of recovered nodes scales with r as a power-law whose exponent can be understood from the finite size cluster distribution at criticality. We also test our model on the real international airline network and show that 'high-degree bridge nodes' reduce the time tb.
ISSN:1367-2630
1367-2630