In the study of epidemic dynamics a fundamental question is whether a pathogen initially affecting only one individual will give rise to a limited outbreak or to a widespread pandemic. The answer to this question crucially depends not only on the parameters describing the infection and recovery processes but also on where, in the network of interactions, the infection starts from. We study the dependence on the location of the initial seed for the susceptible-infected-susceptible epidemic dynamics in continuous time on networks. We first derive analytical predictions for the dependence on the initial node of three indicators of spreading influence (probability to originate an infinite outbreak, average duration, and size of finite outbreaks...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
Abstract. We present a detailed analytical and numerical study for the spreading of infections with ...
The dynamics of contact networks and epidemics of infectious diseases often occur on comparable time...
In the study of epidemic dynamics a fundamental question is whether a pathogen initially affecting o...
Contact networks are convenient models to investigate epidemics, with nodes and links representing p...
The study of epidemics on static networks has revealed important effects on disease prevalence of n...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
In the study of disease spreading on empirical complex networks in SIR model, initially infected nod...
International audienceThe identification of which nodes are optimal seeds for spreading processes on...
We investigate the effects of heterogeneous and clustered contact patterns on the timescale and fina...
In this thesis we analyze the relationship between epidemiology and network theory, starting from th...
In this paper we extend previous work deriving dynamic equations governing infectious disease spread...
Mathematical models of infectious diseases, which are in principle analytically tractable, use two g...
Many progresses in the understanding of epidemic spreading models have been obtained thanks to numer...
Epidemic models are increasingly applied in real-world networks to understand various kinds of diffu...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
Abstract. We present a detailed analytical and numerical study for the spreading of infections with ...
The dynamics of contact networks and epidemics of infectious diseases often occur on comparable time...
In the study of epidemic dynamics a fundamental question is whether a pathogen initially affecting o...
Contact networks are convenient models to investigate epidemics, with nodes and links representing p...
The study of epidemics on static networks has revealed important effects on disease prevalence of n...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
In the study of disease spreading on empirical complex networks in SIR model, initially infected nod...
International audienceThe identification of which nodes are optimal seeds for spreading processes on...
We investigate the effects of heterogeneous and clustered contact patterns on the timescale and fina...
In this thesis we analyze the relationship between epidemiology and network theory, starting from th...
In this paper we extend previous work deriving dynamic equations governing infectious disease spread...
Mathematical models of infectious diseases, which are in principle analytically tractable, use two g...
Many progresses in the understanding of epidemic spreading models have been obtained thanks to numer...
Epidemic models are increasingly applied in real-world networks to understand various kinds of diffu...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
Abstract. We present a detailed analytical and numerical study for the spreading of infections with ...
The dynamics of contact networks and epidemics of infectious diseases often occur on comparable time...