AbstractDeterministic models have a long history of being applied to the study of infectious disease epidemiology. We highlight and discuss nine challenges in this area. The first two concern the endemic equilibrium and its stability. We indicate the need for models that describe multi-strain infections, infections with time-varying infectivity, and those where superinfection is possible. We then consider the need for advances in spatial epidemic models, and draw attention to the lack of models that explore the relationship between communicable and non-communicable diseases. The final two challenges concern the uses and limitations of deterministic models as approximations to stochastic systems
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
During the ongoing COVID-19 pandemic, mathematical models of epidemic spreading have emerged as powe...
This paper describes a deterministic dynamical model of the epidemic spreading of disease. We introd...
AbstractDeterministic models have a long history of being applied to the study of infectious disease...
The abrupt outbreak and transmission of biological diseases has always been a long-time concern of h...
Introduction Recent research has revealed a surge in the application of Stochastic Differential Equ...
AbstractThe most basic stochastic epidemic models are those involving global transmission, meaning t...
We analyse SIS epidemics amongst populations partitioned into households. The analysis considers bot...
Epidemics are a constant threat, able to bring the entire world to a halt in the case of extreme out...
Mathematical modeling is an essential tool in epidemiology. Models are constructed to describe the s...
This editorial paper presents the papers published in a special issue devoted to the modeling and si...
An epidemic model with births and deaths is considered on a two-dimensional L × L lattice. Each indi...
In this thesis several problems concerning the stochastic modelling of emerging infections are consi...
Epidemic spread models are useful tools to study the spread and the effectiveness of the interventio...
Mathematical modelling can be useful for predicting how infectious diseases progress, enabling us to...
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
During the ongoing COVID-19 pandemic, mathematical models of epidemic spreading have emerged as powe...
This paper describes a deterministic dynamical model of the epidemic spreading of disease. We introd...
AbstractDeterministic models have a long history of being applied to the study of infectious disease...
The abrupt outbreak and transmission of biological diseases has always been a long-time concern of h...
Introduction Recent research has revealed a surge in the application of Stochastic Differential Equ...
AbstractThe most basic stochastic epidemic models are those involving global transmission, meaning t...
We analyse SIS epidemics amongst populations partitioned into households. The analysis considers bot...
Epidemics are a constant threat, able to bring the entire world to a halt in the case of extreme out...
Mathematical modeling is an essential tool in epidemiology. Models are constructed to describe the s...
This editorial paper presents the papers published in a special issue devoted to the modeling and si...
An epidemic model with births and deaths is considered on a two-dimensional L × L lattice. Each indi...
In this thesis several problems concerning the stochastic modelling of emerging infections are consi...
Epidemic spread models are useful tools to study the spread and the effectiveness of the interventio...
Mathematical modelling can be useful for predicting how infectious diseases progress, enabling us to...
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
During the ongoing COVID-19 pandemic, mathematical models of epidemic spreading have emerged as powe...
This paper describes a deterministic dynamical model of the epidemic spreading of disease. We introd...