Add to ORKGAbstract Driven by seasonality, many common recurrent infectious diseases are characterized by strong annual, biennial and sometimes irregular oscillations in the absence of vaccination programs. Using the seasonally forced SIR epidemic model, we are able to provide new insights into the dynamics of recurrent diseases and, in some cases, specific predictions about individual outbreaks. The analysis reveals a new threshold effect that gives clear conditions for the triggering of future disease outbreaks or their absence. The threshold depends critically on the susceptibility S0 of the population after an outbreak. We show that in the presence of seasonality, forecasts based on the susceptibility S0 are more reliable than those based on the c...
Many pathogens spread primarily via direct contact between infected and susceptible hosts. Thus, the...
The study of epidemiological systems has generated deep interest in exploring the dynamical complexi...
AbstractIn this paper, a time-delayed epidemic model is formulated to describe the dynamics of seaso...
Abstract Driven by seasonality, many common recurrent infectious diseases are characterized by stron...
We first study an SIR system of differential equations with periodic coefficients describing an epid...
Seasonality strongly affects the transmission and spatio-temporal dynamics of many infectious diseas...
We study the attack rate, that is the total fraction of the population infected each year, for a dis...
International audienceMany infectious diseases exhibit seasonal dynamics driven by periodic fluctuat...
Many infectious diseases exhibit seasonal dynamics driven by periodic fluctuations of the environmen...
207 pagesMathematical models of infectious disease spread can be used to study both recurrent and em...
The impact of seasonal effects on the time course of an infectious disease can be dramatic. Seasonal...
BACKGROUND: Highly successful strategies to make populations more resilient to infectious diseases, ...
ABSTRACT: Seasonality of infectious disease is an important factor in disease incidence, outbreaks, ...
The annual occurrence of many infectious diseases remains a constant burden to public health systems...
A new epidemic model of seasonal/cyclical pulse contagions of an infectious disease is introduced: a...
Many pathogens spread primarily via direct contact between infected and susceptible hosts. Thus, the...
The study of epidemiological systems has generated deep interest in exploring the dynamical complexi...
AbstractIn this paper, a time-delayed epidemic model is formulated to describe the dynamics of seaso...
Abstract Driven by seasonality, many common recurrent infectious diseases are characterized by stron...
We first study an SIR system of differential equations with periodic coefficients describing an epid...
Seasonality strongly affects the transmission and spatio-temporal dynamics of many infectious diseas...
We study the attack rate, that is the total fraction of the population infected each year, for a dis...
International audienceMany infectious diseases exhibit seasonal dynamics driven by periodic fluctuat...
Many infectious diseases exhibit seasonal dynamics driven by periodic fluctuations of the environmen...
207 pagesMathematical models of infectious disease spread can be used to study both recurrent and em...
The impact of seasonal effects on the time course of an infectious disease can be dramatic. Seasonal...
BACKGROUND: Highly successful strategies to make populations more resilient to infectious diseases, ...
ABSTRACT: Seasonality of infectious disease is an important factor in disease incidence, outbreaks, ...
The annual occurrence of many infectious diseases remains a constant burden to public health systems...
A new epidemic model of seasonal/cyclical pulse contagions of an infectious disease is introduced: a...
Many pathogens spread primarily via direct contact between infected and susceptible hosts. Thus, the...
The study of epidemiological systems has generated deep interest in exploring the dynamical complexi...
AbstractIn this paper, a time-delayed epidemic model is formulated to describe the dynamics of seaso...