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Paper detail

Impact of non-Poisson activity patterns on spreading processes

Halting a computer or biological virus outbreak requires a detailed understanding of the timing of the interactions between susceptible and infected individuals. While current spreading models assume that users interact uniformly in time, following a Poisson process, a series of recent measurements indicate that the inter-contact time distribution is heavy tailed, corresponding to a temporally inhomogeneous bursty contact process. Here we show that the non-Poisson nature of the contact dynamics results in prevalence decay times significantly larger than predicted by the standard Poisson process based models. Our predictions are in agreement with the detailed time resolved prevalence data of computer viruses, which, according to virus bulletins, show a decay time close to a year, in contrast with the one day decay predicted by the standard Poisson process based models.

preprint2007arXivOpen access
Alexei VazquezRacz BalazsLukacs AndrasAlbert-Laszlo Barabasi
cond-mat.stat-mechBiological Physicsphysics.data-anPopulations and Evolution
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Alexei VazquezRacz BalazsLukacs AndrasAlbert-Laszlo Barabasi

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