Add to ORKGSeasonality is a complex force in nature that affects multiple processes in wild animal populations. In particular, seasonal variations in demographic processes may considerably affect the persistence of a pathogen in these populations. Furthermore, it has been long observed in computer simulations that under seasonal perturbations, a host–pathogen system can exhibit complex dynamics, including the transition to chaos, as the magnitude of the seasonal perturbation increases. In this paper, we develop a seasonally perturbed Susceptible-Infected-Recovered model of avian influenza in a seabird colony. Numerical simulations of the model give rise to chaotic recurrent epidemics for parameters that reflect the ecology of avian influenza in a seab...
Modeling insights for epidemiological scenarios characterized by chaotic dynamics have been largely ...
We propose and analyse a model for the dynamics of a single strain of an influenza-like infection. T...
We propose and analyse a model for the dynamics of a single strain of an influenza-like infection. T...
Emerging and re-emerging pathogens pose a significant threat to the health status f man, of domestic...
Despite numerous studies of epidemiological systems, the role of seasonality in the recurrent epidem...
Despite numerous studies of epidemiological systems, the role of seasonality in the recurrent epide...
The impact of seasonal effects on the time course of an infectious disease can be dramatic. Seasonal...
The impact of seasonal effects on the time course of an infectious disease can be dramatic. Seasonal...
In this paper, the problems of chaos and chaos control for a class of susceptible-infected-removed (...
In spite of their complex behaviour the dynamics of some ecological systems may be explained by dete...
In this paper, the problems of chaos and chaos control for a class of susceptible-infected-removed (...
In this article, we consider the discretized classical Susceptible-Infected-Recovered (SIR) forced e...
The study of epidemiological systems has generated deep interest in exploring the dynamical complexi...
In this article, we consider the discretized classical Susceptible-Infected-Recovered (SIR) forced e...
In this article, we consider the discretized classical Susceptible-Infected-Recovered (SIR) forced e...
Modeling insights for epidemiological scenarios characterized by chaotic dynamics have been largely ...
We propose and analyse a model for the dynamics of a single strain of an influenza-like infection. T...
We propose and analyse a model for the dynamics of a single strain of an influenza-like infection. T...
Emerging and re-emerging pathogens pose a significant threat to the health status f man, of domestic...
Despite numerous studies of epidemiological systems, the role of seasonality in the recurrent epidem...
Despite numerous studies of epidemiological systems, the role of seasonality in the recurrent epide...
The impact of seasonal effects on the time course of an infectious disease can be dramatic. Seasonal...
The impact of seasonal effects on the time course of an infectious disease can be dramatic. Seasonal...
In this paper, the problems of chaos and chaos control for a class of susceptible-infected-removed (...
In spite of their complex behaviour the dynamics of some ecological systems may be explained by dete...
In this paper, the problems of chaos and chaos control for a class of susceptible-infected-removed (...
In this article, we consider the discretized classical Susceptible-Infected-Recovered (SIR) forced e...
The study of epidemiological systems has generated deep interest in exploring the dynamical complexi...
In this article, we consider the discretized classical Susceptible-Infected-Recovered (SIR) forced e...
In this article, we consider the discretized classical Susceptible-Infected-Recovered (SIR) forced e...
Modeling insights for epidemiological scenarios characterized by chaotic dynamics have been largely ...
We propose and analyse a model for the dynamics of a single strain of an influenza-like infection. T...
We propose and analyse a model for the dynamics of a single strain of an influenza-like infection. T...