Add to ORKGWe investigated the behavior of a Susceptible-Infected-Recovered seasonally forced model for endemic childhood infectious diseases in the case where the target population is not isolated and, moreover, fast weekly fluctuations of the social contacts occur. We considered some key scenarios of interplay of Susceptible subjects with the external world, leading to subharmonic resonances and chaos. Our simulations suggest that the above–mentioned fast oscillations of the contact rate can cause the suppression/reduction of chaos and of subharmonic resonances. Thus, far from being filtered, they have an important role. If one considers an opposition of phase of the pattern of external infections w.r.t. the pattern of internal transmission rate, th...
BACKGROUND: Highly successful strategies to make populations more resilient to infectious diseases, ...
Basic models suitable to explain the epidemiology of dengue fever have previously shown the possibil...
Preprint: Societal feedback induces complex and chaotic dynamics in endemic infectious diseases Abs...
The spread of some childhood diseases such as chickenpox, measles, mumps, and rubella can be modeled...
It is well known that behavioral changes in contact patterns may significantly affect the spread of ...
We study how spontaneous reduction in the number of contacts could develop, as a defensive response,...
We study how spontaneous reduction in the number of contacts could develop, as a defensive response,...
Theory has emphasized the importance of both intrinsic factors such as host immunity and extrinsic d...
Este artículo contiene 8 páginas, 4 figuras.The role of stochasticity and its interplay with nonline...
Using traditional spectral analysis and recently developed non-linear methods, we analyze the incide...
One of the interesting properties of nonlinear dynamical systems is that arbitrarily small changes i...
The study of epidemiological systems has generated deep interest in exploring the dynamical complexi...
In spite of their complex behaviour the dynamics of some ecological systems may be explained by dete...
The impact of seasonal effects on the time course of an infectious disease can be dramatic. Seasonal...
Modeling insights for epidemiological scenarios characterized by chaotic dynamics have been largely ...
BACKGROUND: Highly successful strategies to make populations more resilient to infectious diseases, ...
Basic models suitable to explain the epidemiology of dengue fever have previously shown the possibil...
Preprint: Societal feedback induces complex and chaotic dynamics in endemic infectious diseases Abs...
The spread of some childhood diseases such as chickenpox, measles, mumps, and rubella can be modeled...
It is well known that behavioral changes in contact patterns may significantly affect the spread of ...
We study how spontaneous reduction in the number of contacts could develop, as a defensive response,...
We study how spontaneous reduction in the number of contacts could develop, as a defensive response,...
Theory has emphasized the importance of both intrinsic factors such as host immunity and extrinsic d...
Este artículo contiene 8 páginas, 4 figuras.The role of stochasticity and its interplay with nonline...
Using traditional spectral analysis and recently developed non-linear methods, we analyze the incide...
One of the interesting properties of nonlinear dynamical systems is that arbitrarily small changes i...
The study of epidemiological systems has generated deep interest in exploring the dynamical complexi...
In spite of their complex behaviour the dynamics of some ecological systems may be explained by dete...
The impact of seasonal effects on the time course of an infectious disease can be dramatic. Seasonal...
Modeling insights for epidemiological scenarios characterized by chaotic dynamics have been largely ...
BACKGROUND: Highly successful strategies to make populations more resilient to infectious diseases, ...
Basic models suitable to explain the epidemiology of dengue fever have previously shown the possibil...
Preprint: Societal feedback induces complex and chaotic dynamics in endemic infectious diseases Abs...