The dynamics of infectious diseases that are spread through direct contact have been proven to depend on the strength of community structure or modularity within the underlying network. It has been recently shown that weighted networks with similar modularity values may exhibit different mixing styles regarding the number of connections among communities and their respective weights. However, the effect of mixing style on epidemic behavior was still unclear. In this paper, we simulate the spread of disease within networks with different mixing styles: a dense-weak style (i.e., many edges among the communities with small weights) and a sparse-strong style (i.e., a few edges among the communities with large weights). Simulation results show t...
<p>(A) average epidemic size (i.e., density of infected nodes) as a function of recovery rate <i>γ</...
Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. Fund ing was pr...
Networks and the epidemiology of directly transmitted infectious diseases are fundamentally linked. ...
The dynamics of infectious diseases that are spread through direct contact have been proven to depen...
© 2018 Elsevier Inc. A large number of real world networks exhibit community structure, and differen...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
One major aim of statistics is to systematically study outcomes of interest in a population by obser...
In networks, nodes may preferentially contact other nodes with similar (assortatively mixed) or diss...
Understanding the scaling of transmission is critical to predicting how infectious diseases will aff...
In networks, nodes may preferentially contact other nodes with similar (assortatively mixed) or diss...
Understanding the scaling of transmission is critical to predicting how infectious diseases will aff...
We investigate the effects of heterogeneous and clustered contact patterns on the timescale and fina...
Many real-world networks display a community structure. We study two random graph models that create...
We consider a model for the diffusion of epidemics in a population that is partitioned into local co...
Social networks have the structure of communities. To understand how the community structure affects...
<p>(A) average epidemic size (i.e., density of infected nodes) as a function of recovery rate <i>γ</...
Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. Fund ing was pr...
Networks and the epidemiology of directly transmitted infectious diseases are fundamentally linked. ...
The dynamics of infectious diseases that are spread through direct contact have been proven to depen...
© 2018 Elsevier Inc. A large number of real world networks exhibit community structure, and differen...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
One major aim of statistics is to systematically study outcomes of interest in a population by obser...
In networks, nodes may preferentially contact other nodes with similar (assortatively mixed) or diss...
Understanding the scaling of transmission is critical to predicting how infectious diseases will aff...
In networks, nodes may preferentially contact other nodes with similar (assortatively mixed) or diss...
Understanding the scaling of transmission is critical to predicting how infectious diseases will aff...
We investigate the effects of heterogeneous and clustered contact patterns on the timescale and fina...
Many real-world networks display a community structure. We study two random graph models that create...
We consider a model for the diffusion of epidemics in a population that is partitioned into local co...
Social networks have the structure of communities. To understand how the community structure affects...
<p>(A) average epidemic size (i.e., density of infected nodes) as a function of recovery rate <i>γ</...
Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. Fund ing was pr...
Networks and the epidemiology of directly transmitted infectious diseases are fundamentally linked. ...