Add to ORKGWe study the effect of migration between coupled populations, or patches, on the stability properties of multistrain disease dynamics. The epidemic model used in this work displays a Hopf bifurcation to oscillations in a single, well-mixed population. It is shown numerically that migration between two non-identical patches stabilizes the endemic steady state, delaying the onset of large amplitude outbreaks and reducing the total number of infections. This result is motivated by analyzing generic Hopf bifurcations with different frequencies and with diffusive coupling between them. Stabilization of the steady state is again seen, indicating that our observation in the full multistrain model is based on qualitative characteristics of the dyna...
Important biological features of viral infectious diseases caused by multiple agents with interactin...
International audienceThe resurgence of vector-borne diseases is an increasing public health concern...
Basic models suitable to explain the epidemiology of dengue fever have previously shown the possibil...
We study the effect of migration between coupled populations, or patches, on the stability propertie...
This paper examines the interplay of the effect of cross immunity and antibody-dependent enhancement...
Viruses and bacteria responsible for infectious diseases often mutate and are carried between geogra...
A mathematical model to describe the dynamic of a multiserotype infectious disease at the population...
Modeling insights for epidemiological scenarios characterized by chaotic dynamics have been largely ...
Abstract — We discuss an epidemic model for dengue fever infection by considering the simultaneous s...
Outbreaks of infectious diseases can devastate a population. Researchers thus study the spread of an...
In mathematical studies of the dynamics of multi-strain diseases caused by antigenically diverse pat...
Basic models suitable to explain the epidemiology of dengue fever have previously shown the possibil...
Infectious diseases often mutate and are carried between regions. We consider a mathematical model ...
This paper examines an epidemic patch model with mass-action transmission mechanism and asymmetric c...
We consider a n-patches model, to study the impact of human population movements between cities (pat...
Important biological features of viral infectious diseases caused by multiple agents with interactin...
International audienceThe resurgence of vector-borne diseases is an increasing public health concern...
Basic models suitable to explain the epidemiology of dengue fever have previously shown the possibil...
We study the effect of migration between coupled populations, or patches, on the stability propertie...
This paper examines the interplay of the effect of cross immunity and antibody-dependent enhancement...
Viruses and bacteria responsible for infectious diseases often mutate and are carried between geogra...
A mathematical model to describe the dynamic of a multiserotype infectious disease at the population...
Modeling insights for epidemiological scenarios characterized by chaotic dynamics have been largely ...
Abstract — We discuss an epidemic model for dengue fever infection by considering the simultaneous s...
Outbreaks of infectious diseases can devastate a population. Researchers thus study the spread of an...
In mathematical studies of the dynamics of multi-strain diseases caused by antigenically diverse pat...
Basic models suitable to explain the epidemiology of dengue fever have previously shown the possibil...
Infectious diseases often mutate and are carried between regions. We consider a mathematical model ...
This paper examines an epidemic patch model with mass-action transmission mechanism and asymmetric c...
We consider a n-patches model, to study the impact of human population movements between cities (pat...
Important biological features of viral infectious diseases caused by multiple agents with interactin...
International audienceThe resurgence of vector-borne diseases is an increasing public health concern...
Basic models suitable to explain the epidemiology of dengue fever have previously shown the possibil...