Exploiting the time-dynamics of news diffusion on the Internet through a generalized Susceptible–Infected model

We construct a news spreading model with a time dependent contact rate which generalizes the classical Susceptible–Infected model of epidemiology. In particular, we are interested on the time-dynamics of the sharing and diffusion process of news on the Internet. We focus on the counting process desc...

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Bibliographic Details
Published in:Physica A 2015-11, Vol.438, p.634-644
Main Authors: De Martino, Giuseppe, Spina, Serena
Format: Article
Language:English
Subjects:
Counting processes
Epidemiological models
Information diffusion models
News diffusion
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Summary:We construct a news spreading model with a time dependent contact rate which generalizes the classical Susceptible–Infected model of epidemiology. In particular, we are interested on the time-dynamics of the sharing and diffusion process of news on the Internet. We focus on the counting process describing the number of connections to a given website, characterizing the cumulative density function of its inter-arrival times. Moreover, starting from the general form of the finite dimensional distribution of the process, we determine a formula for the time-variable rate of the connections and establish its relationship with the probability density function of the interarrival times. We finally show the effectiveness of our theoretical framework analyzing a real-world dataset, the Memetracker dataset, whose parameters characterizing the diffusion process are determined. •We construct a news spreading model with a time dependent contact rate.•We focus on the time-dynamics of the diffusion process of news on the Internet.•We determine a formula for the probability density function of the inter-event times.•We validate our model using the Memetracker dataset.•A strong improvement is obtained with respect to the Susceptible–Infected model.
ISSN:0378-4371
1873-2119
DOI:10.1016/j.physa.2015.07.022