We study by analytical methods and large scale simulations a dynamical model for the spreading of epidemics in complex networks. In networks with exponentially bounded connectivity we recover the usual epidemic behavior with a threshold defining a critical point below that the infection prevalence is null. On the contrary, on a wide range of scale-free networks we observe the absence of an epidemic threshold and its associated critical behavior. This implies that scale-free networks are prone to the spreading and the persistence of infections whatever spreading rate the epidemic agents might possess. These results can help understanding computer virus epidemics and other spreading phenomena on communication and social networks
The study of epidemics on static networks has revealed important effects on disease prevalence of n...
In real-world networks of disease transmission, the incidence of infection among individuals conform...
We develop an analytical approach to the susceptible-infected-susceptible epidemic model that allows...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
The Internet has a very complex connectivity recently modeled by the class of scale-free networks. T...
Abstract. We present a detailed analytical and numerical study for the spreading of infections with ...
We study the effect of the connectivity pattern of complex networks on the propagation dynamics of e...
This thesis studies dynamics and control of epidemic spreading in complex networks especially scale-...
Abstract. We study the spreading of a disease on top of structured scale-free networks recently intr...
We study the spreading of a disease on top of structured scale-free networks recently introduced. By...
Understanding the dynamics of computer virus (malware, worm) in cyberspace is an important problem t...
We study the behavior of epidemic spreading in networks, and, in particular, scale free networks. We...
Volchenkov D, Volchenkova L, Blanchard P. Epidemic spreading in a variety of scale free networks. PH...
We report a computational study of the spreading dynamics of a viral infection in a complex (scale-f...
Highly heterogeneous degree distributions yield efficient spreading of simple epidemics through netw...
The study of epidemics on static networks has revealed important effects on disease prevalence of n...
In real-world networks of disease transmission, the incidence of infection among individuals conform...
We develop an analytical approach to the susceptible-infected-susceptible epidemic model that allows...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
The Internet has a very complex connectivity recently modeled by the class of scale-free networks. T...
Abstract. We present a detailed analytical and numerical study for the spreading of infections with ...
We study the effect of the connectivity pattern of complex networks on the propagation dynamics of e...
This thesis studies dynamics and control of epidemic spreading in complex networks especially scale-...
Abstract. We study the spreading of a disease on top of structured scale-free networks recently intr...
We study the spreading of a disease on top of structured scale-free networks recently introduced. By...
Understanding the dynamics of computer virus (malware, worm) in cyberspace is an important problem t...
We study the behavior of epidemic spreading in networks, and, in particular, scale free networks. We...
Volchenkov D, Volchenkova L, Blanchard P. Epidemic spreading in a variety of scale free networks. PH...
We report a computational study of the spreading dynamics of a viral infection in a complex (scale-f...
Highly heterogeneous degree distributions yield efficient spreading of simple epidemics through netw...
The study of epidemics on static networks has revealed important effects on disease prevalence of n...
In real-world networks of disease transmission, the incidence of infection among individuals conform...
We develop an analytical approach to the susceptible-infected-susceptible epidemic model that allows...