Abstract. Human mobility is a key factor in spatial disease dynamics and related phenomena. In computational models host mobility is typically modeled by diffusion in space or on metapolulation networks. Alternatively, an effective force of infection across distance has been introduced to capture spatial dispersal implicitly. Both approaches do not account for important aspects of natural human mobility, diffusion does not capture the high degree of predictability in natural human mobility patters, e.g. the high percentage of return movements to individuals' base location, the effective force of infection approach assumes immediate equilibrium with respect to dispersal. These conditions are typically not met in natural scenarios. We in...
Infectious disease transmission is an inherently spatial process in which a host’s home location and...
In recent years, serious infectious diseases tend to transcend national borders and widely spread in...
We investigate the role of migration patterns on the spread of epidemics in complex networks. We enh...
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 ...
The understanding of human mobility and the development of qualitative models as well as quantitativ...
Host mobility plays a fundamental role in the spatial spread of infectious diseases. Previous theore...
Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. Fund ing was pr...
The recent outbreak of coronavirus disease has demonstrated that physical human interactions and mod...
Human mobility, contact patterns, and their interplay are key aspects of our social behavior that sh...
Abstract Computational models for large, resurgent epidemics are recognized as a crucial tool for pr...
The analysis of contagion-diffusion processes in metapopulations is a powerful theoretical tool to s...
One of the central goals of mathematical epidemiology is to predict disease transmission patterns in...
Rapidly mutating pathogens may be able to persist in the population and reach an endemic equilibrium...
Infectious disease transmission is an inherently spatial process in which a host's home location and...
Infectious disease transmission is an inherently spatial process in which a host’s home location and...
In recent years, serious infectious diseases tend to transcend national borders and widely spread in...
We investigate the role of migration patterns on the spread of epidemics in complex networks. We enh...
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 ...
The understanding of human mobility and the development of qualitative models as well as quantitativ...
Host mobility plays a fundamental role in the spatial spread of infectious diseases. Previous theore...
Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. Fund ing was pr...
The recent outbreak of coronavirus disease has demonstrated that physical human interactions and mod...
Human mobility, contact patterns, and their interplay are key aspects of our social behavior that sh...
Abstract Computational models for large, resurgent epidemics are recognized as a crucial tool for pr...
The analysis of contagion-diffusion processes in metapopulations is a powerful theoretical tool to s...
One of the central goals of mathematical epidemiology is to predict disease transmission patterns in...
Rapidly mutating pathogens may be able to persist in the population and reach an endemic equilibrium...
Infectious disease transmission is an inherently spatial process in which a host's home location and...
Infectious disease transmission is an inherently spatial process in which a host’s home location and...
In recent years, serious infectious diseases tend to transcend national borders and widely spread in...
We investigate the role of migration patterns on the spread of epidemics in complex networks. We enh...