In real-world networks of disease transmission, the incidence of infection among individuals conforms to a certain fixed probability of effective contact between them, which must meet some necessary conditions for the disease to continue to spread. Based on susceptible/infective/removed (SIR) models in homogeneous or heterogeneous networks, we find that these models evolve dynamically just like in networks without connectivity fluctuations if all the susceptible individuals are supposed to have the same effective contact. This means that effectively heterogeneous contacts play a striking role in epidemic dynamics. To go a step further, we introduce the effective contact function (ECF) into models and present an analytical and numerical stud...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
In this paper, we propose a modified susceptible-infected-recovered (SIR) model, in which each node ...
Contact reduction is an effective strategy to mitigate the spreading of epidemic. However, the exist...
We present a detailed analytical and numerical study for the spreading of infections with acquired i...
<p>The distributions in the number of contacts (<i>k</i>) and interaction events per time (<i>l</i>)...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
The dynamics of contact networks and epidemics of infectious diseases often occur on comparable time...
In this thesis we analyze the relationship between epidemiology and network theory, starting from th...
We consider the spread of infectious disease through contact networks of Configuration Model type. W...
Abstract.We consider the spread of infectious disease through contact networks of Configura-tion Mod...
We consider the spread of infectious disease through contact networks of Configuration Model type. W...
The dynamic nature of contact patterns creates diverse temporal structures. In particular, empirical...
We consider the spread of infectious disease through contact networks of Configuration Mod...
Heterogeneity in the number of potentially infectious contacts amongst members of a population incre...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
In this paper, we propose a modified susceptible-infected-recovered (SIR) model, in which each node ...
Contact reduction is an effective strategy to mitigate the spreading of epidemic. However, the exist...
We present a detailed analytical and numerical study for the spreading of infections with acquired i...
<p>The distributions in the number of contacts (<i>k</i>) and interaction events per time (<i>l</i>)...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
The dynamics of contact networks and epidemics of infectious diseases often occur on comparable time...
In this thesis we analyze the relationship between epidemiology and network theory, starting from th...
We consider the spread of infectious disease through contact networks of Configuration Model type. W...
Abstract.We consider the spread of infectious disease through contact networks of Configura-tion Mod...
We consider the spread of infectious disease through contact networks of Configuration Model type. W...
The dynamic nature of contact patterns creates diverse temporal structures. In particular, empirical...
We consider the spread of infectious disease through contact networks of Configuration Mod...
Heterogeneity in the number of potentially infectious contacts amongst members of a population incre...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
In this paper, we propose a modified susceptible-infected-recovered (SIR) model, in which each node ...