Current understanding of the critical outbreak condition on temporal networks relies on approximations (time scale separation, discretization) that may bias the results. We propose a theoretical framework to compute the epidemic threshold in continuous time through the infection propagator approach. We introduce the weak commutation condition allowing the interpretation of annealed networks, activity-driven networks, and time scale separation into one formalism. Our work provides a coherent connection between discrete and continuous time representations applicable to realistic scenarios.
Epidemic Threshold in Continuous-Time Evolving Networks / Valdano, Eugenio; Fiorentin, Michele Re; Poletto, Chiara; Colizza, Vittoria. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - ELETTRONICO. - 120:6(2018), p. 068302. [10.1103/PhysRevLett.120.068302]
Epidemic Threshold in Continuous-Time Evolving Networks
Fiorentin, Michele Re;
2018
Abstract
Current understanding of the critical outbreak condition on temporal networks relies on approximations (time scale separation, discretization) that may bias the results. We propose a theoretical framework to compute the epidemic threshold in continuous time through the infection propagator approach. We introduce the weak commutation condition allowing the interpretation of annealed networks, activity-driven networks, and time scale separation into one formalism. Our work provides a coherent connection between discrete and continuous time representations applicable to realistic scenarios.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2974217