It is a fundamental question in disease modeling how the initial seeding of an epidemic, spreading over a network, determines its final outcome. One important goal has been to find the seed configuration, which infects the most individuals. Although the identified optimal configurations give insight into how the initial state affects the outcome of an epidemic, they are unlikely to occur in real life. In this paper we identify two important seeding scenarios, both motivated by historical data, that reveal a complex phenomenon. In one scenario, the seeds are concentrated on the central nodes of a network, while in the second one, they are spread uniformly in the population. Comparing the final size of the epidemic started from these two init...
The study of epidemics on static networks has revealed important effects on disease prevalence of ne...
Many real networks exhibit a layered structure in which links in each layer reflect the function of ...
Abstract In this article, we develop two independent and new approaches to model epidemic spread in ...
We investigate the spread of an infection or other malfunction of cascading nature when a system com...
Epidemics and evolution of many pathogens occur on similar timescales so that their dynamics are oft...
In this paper we extend previous work deriving dynamic equations governing infectious disease spread...
In the study of epidemic dynamics a fundamental question is whether a pathogen initially affecting o...
Mathematical disease modelling has long operated under the assumption that any one infectious diseas...
Many real networks exhibit a layered structure in which links in each layer reflect the function of ...
Many real networks exhibit a layered structure in which links in each layer reflect the function of ...
Epidemics on complex networks is a widely investigated topic in the last few years, mainly due to th...
We investigate the effects of heterogeneous and clustered contact patterns on the timescale and fina...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
Potential diffusion processes of real-world systems are relevant to the underlying network structure...
Infectious diseases typically spread over a contact network with millions of individuals, whose shee...
The study of epidemics on static networks has revealed important effects on disease prevalence of ne...
Many real networks exhibit a layered structure in which links in each layer reflect the function of ...
Abstract In this article, we develop two independent and new approaches to model epidemic spread in ...
We investigate the spread of an infection or other malfunction of cascading nature when a system com...
Epidemics and evolution of many pathogens occur on similar timescales so that their dynamics are oft...
In this paper we extend previous work deriving dynamic equations governing infectious disease spread...
In the study of epidemic dynamics a fundamental question is whether a pathogen initially affecting o...
Mathematical disease modelling has long operated under the assumption that any one infectious diseas...
Many real networks exhibit a layered structure in which links in each layer reflect the function of ...
Many real networks exhibit a layered structure in which links in each layer reflect the function of ...
Epidemics on complex networks is a widely investigated topic in the last few years, mainly due to th...
We investigate the effects of heterogeneous and clustered contact patterns on the timescale and fina...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
Potential diffusion processes of real-world systems are relevant to the underlying network structure...
Infectious diseases typically spread over a contact network with millions of individuals, whose shee...
The study of epidemics on static networks has revealed important effects on disease prevalence of ne...
Many real networks exhibit a layered structure in which links in each layer reflect the function of ...
Abstract In this article, we develop two independent and new approaches to model epidemic spread in ...