International audienceBACKGROUND: Determining the pandemic potential of an emerging infectious disease and how it depends on the various epidemic and population aspects is critical for the preparation of an adequate response aimed at its control. The complex interplay between population movements in space and non-homogeneous mixing patterns have so far hindered the fundamental understanding of the conditions for spatial invasion through a general theoretical framework. To address this issue, we present an analytical modelling approach taking into account such interplay under general conditions of mobility and interactions, in the simplifying assumption of two population classes. METHODS: We describe a spatially structured population with no...
Host mobility plays a fundamental role in the spatial spread of infectious diseases. Previous theore...
The spatiotemporal propagation patterns of recent infectious diseases, originated as localized epide...
The increasing agglomeration of people in dense urban areas coupled with the existence of efficient ...
International audienceBACKGROUND: Determining the pandemic potential of an emerging infectious disea...
Background: Determining the pandemic potential of an emerging infectious disease and how it depends ...
available at the end of the article Background: Determining the pandemic potential of an emerging in...
Background: Confirmed H1N1 cases during late spring and summer 2009 in various countries showed a su...
International audienceBACKGROUND: Confirmed H1N1 cases during late spring and summer 2009 in various...
Human mobility, contact patterns, and their interplay are key aspects of our social behavior that sh...
This Master Thesis proposes a new mathematical method for modelling infectious diseases that spread ...
Abstract Computational models for large, resurgent epidemics are recognized as a crucial tool for pr...
Current modeling of infectious diseases allows for the study of realistic scenarios that include pop...
The analysis of contagion-diffusion processes in metapopulations is a powerful theoretical tool to s...
We propose a theoretical framework for the study of spreading processes in structured metapopulation...
Host mobility plays a fundamental role in the spatial spread of infectious diseases. Previous theore...
The spatiotemporal propagation patterns of recent infectious diseases, originated as localized epide...
The increasing agglomeration of people in dense urban areas coupled with the existence of efficient ...
International audienceBACKGROUND: Determining the pandemic potential of an emerging infectious disea...
Background: Determining the pandemic potential of an emerging infectious disease and how it depends ...
available at the end of the article Background: Determining the pandemic potential of an emerging in...
Background: Confirmed H1N1 cases during late spring and summer 2009 in various countries showed a su...
International audienceBACKGROUND: Confirmed H1N1 cases during late spring and summer 2009 in various...
Human mobility, contact patterns, and their interplay are key aspects of our social behavior that sh...
This Master Thesis proposes a new mathematical method for modelling infectious diseases that spread ...
Abstract Computational models for large, resurgent epidemics are recognized as a crucial tool for pr...
Current modeling of infectious diseases allows for the study of realistic scenarios that include pop...
The analysis of contagion-diffusion processes in metapopulations is a powerful theoretical tool to s...
We propose a theoretical framework for the study of spreading processes in structured metapopulation...
Host mobility plays a fundamental role in the spatial spread of infectious diseases. Previous theore...
The spatiotemporal propagation patterns of recent infectious diseases, originated as localized epide...
The increasing agglomeration of people in dense urban areas coupled with the existence of efficient ...