The drive to understand the invasion, spread and fade out of infectious disease in structured populations has produced a variety of mathematical models for pathogen dynamics in metapopulations. Very rarely are these models fully coupled, by which we mean that the spread of an infection within a subpopulation affects the transmission between subpopulations and vice versa. It is also rare that these models are accessible to biologists, in the sense that all parameters have a clear biological meaning and the biological assumptions are explained. Here we present an accessible model that is fully coupled without being an individual-based model. We use the model to show that the duration of an epidemic has a highly non-linear relationship with th...
Persistence of an infectious agent in a population is an important issue in epidemiology. It is assu...
We present a study of the continuous-time equations governing the dynamics of a susceptible infected...
We consider a model for an epidemic in a population that occupies geographically distinct locations....
The drive to understand the invasion, spread and fade out of infectious disease in structured popula...
Epidemic modeling is an important theoretical approach for investigating the transmission dynamics o...
Persistence of infectious agents in populations is an important issue in epidemiology. It is often a...
Epidemic models usually rely on the assumption of exponentially distributed sojourn times in infecti...
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 ...
One of the important questions in understanding infectious diseases and their prevention and control...
Using a stochastic susceptible–infected–removed meta-population model of disease transmission, we pr...
Early theoretical work on disease invasion typically assumed large and well-mixed host populations. ...
Assessing the risk of disease spread between communities is important in our highly connected modern...
The establishment and spread of a disease within a metapopulation is influenced both by dynamics wit...
The thesis `Mathematical aspects of infectious disease dynamics' by Barbara Boldin is about model fo...
Persistence of an infectious agent in a population is an important issue in epidemiology. It is assu...
We present a study of the continuous-time equations governing the dynamics of a susceptible infected...
We consider a model for an epidemic in a population that occupies geographically distinct locations....
The drive to understand the invasion, spread and fade out of infectious disease in structured popula...
Epidemic modeling is an important theoretical approach for investigating the transmission dynamics o...
Persistence of infectious agents in populations is an important issue in epidemiology. It is often a...
Epidemic models usually rely on the assumption of exponentially distributed sojourn times in infecti...
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 ...
One of the important questions in understanding infectious diseases and their prevention and control...
Using a stochastic susceptible–infected–removed meta-population model of disease transmission, we pr...
Early theoretical work on disease invasion typically assumed large and well-mixed host populations. ...
Assessing the risk of disease spread between communities is important in our highly connected modern...
The establishment and spread of a disease within a metapopulation is influenced both by dynamics wit...
The thesis `Mathematical aspects of infectious disease dynamics' by Barbara Boldin is about model fo...
Persistence of an infectious agent in a population is an important issue in epidemiology. It is assu...
We present a study of the continuous-time equations governing the dynamics of a susceptible infected...
We consider a model for an epidemic in a population that occupies geographically distinct locations....