AbstractThe spread of an infectious disease is well approximated by metapopulation networks connected by human mobility flow and upon which an epidemiological model is defined. In order to account for travel restrictions or cancellation we introduce a model with a parameter that explicitly indicates the ratio between the time scales of the intervening processes. We study the critical properties of the epidemic process and its dependence on such a parameter. We find that the critical threshold separating the absorbing state from the active state depends on the scale parameter and exhibits a critical behavior itself: a metacritical point – a critical value in the curve of critical points – reflected in the behavior of the attack rate measured...
We propose a theoretical framework for the study of spreading processes in structured metapopulation...
The drive to understand the invasion, spread and fade out of infectious disease in structured popula...
By incorporating segregated spatial domain and individual-based linkage into the SIS (susceptible-in...
The spread of an infectious disease is well approximated by metapopulation networks connected by hum...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
Host mobility plays a fundamental role in the spatial spread of infectious diseases. Previous theore...
Epidemics are a constant threat, able to bring the entire world to a halt in the case of extreme out...
The analysis of contagion-diffusion processes in metapopulations is a powerful theoretical tool to s...
Human mobility, contact patterns, and their interplay are key aspects of our social behavior that sh...
In this survey we report some recent results in the mathematical modelling of epidemic phenomena thr...
The technological changes and educational expansion have created the heterogeneity in the human spec...
In this paper, we propose a Boltzmann-type kinetic model of the spreading of an infectious disease o...
Abstract. Human mobility is a key factor in spatial disease dynamics and related phenomena. In compu...
We study the dynamics of reaction-diffusion processes on heterogeneous metapopulation networks where...
We propose a theoretical framework for the study of spreading processes in structured metapopulation...
The drive to understand the invasion, spread and fade out of infectious disease in structured popula...
By incorporating segregated spatial domain and individual-based linkage into the SIS (susceptible-in...
The spread of an infectious disease is well approximated by metapopulation networks connected by hum...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
Host mobility plays a fundamental role in the spatial spread of infectious diseases. Previous theore...
Epidemics are a constant threat, able to bring the entire world to a halt in the case of extreme out...
The analysis of contagion-diffusion processes in metapopulations is a powerful theoretical tool to s...
Human mobility, contact patterns, and their interplay are key aspects of our social behavior that sh...
In this survey we report some recent results in the mathematical modelling of epidemic phenomena thr...
The technological changes and educational expansion have created the heterogeneity in the human spec...
In this paper, we propose a Boltzmann-type kinetic model of the spreading of an infectious disease o...
Abstract. Human mobility is a key factor in spatial disease dynamics and related phenomena. In compu...
We study the dynamics of reaction-diffusion processes on heterogeneous metapopulation networks where...
We propose a theoretical framework for the study of spreading processes in structured metapopulation...
The drive to understand the invasion, spread and fade out of infectious disease in structured popula...
By incorporating segregated spatial domain and individual-based linkage into the SIS (susceptible-in...