Concurrency-induced transitions in epidemic dynamics on temporal networks

February 16, 2017 Β· Declared Dead Β· πŸ› Physical Review Letters

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Authors Tomokatsu Onaga, James P. Gleeson, Naoki Masuda arXiv ID 1702.05054 Category physics.soc-ph Cross-listed cs.SI Citations 36 Venue Physical Review Letters Last Checked 3 months ago
Abstract
Social contact networks underlying epidemic processes in humans and animals are highly dynamic. The spreading of infections on such temporal networks can differ dramatically from spreading on static networks. We theoretically investigate the effects of concurrency, the number of neighbors that a node has at a given time point, on the epidemic threshold in the stochastic susceptible-infected-susceptible dynamics on temporal network models. We show that network dynamics can suppress epidemics (i.e., yield a higher epidemic threshold) when the nodes' concurrency is low, but can also enhance epidemics when the concurrency is high. We analytically determine different phases of this concurrency-induced transition, and confirm our results with numerical simulations.
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