A key issue in the dynamical modelling of epidemics is the synthesis of complex mathematical models and data by means of time series analysis. We report such an approach, focusing on the particularly well-documented case of measles. We propose the use of a discrete time epidemic model comprising the infected and susceptible class as state variables. The model uses a discrete time version of the susceptible-exposed-infected-recovered type epidemic models, which can be fitted to observed disease incidence time series. We describe a method for reconstructing the dynamics of the susceptible class, which is an unobserved state variable of the dynamical system. The model provides a remarkable fit to the data on case reports of measles in England ...
Time series analysis has revealed two different patterns of smallpox epidemics in Britain in the sev...
We demonstrate the use of the process algebra PEPA for realistic models of epidemiology. The results...
Mathematical models of childhood diseases date back to the early twentieth century. In several cases...
Recurrent outbreaks of infectious diseases such as measles, mumps and rubella indicate the fairly st...
Dramatic changes in patterns of epidemics have been observed throughout this century. For childhood ...
Before the development of mass-vaccination campaigns. measles exhibited persistent fluctuations (end...
Introduction Measles is one of the most communicable infectious diseases. Prior to immunisation, me...
Abstract The goal of this paper is to analyze the stochastic dynamics of childhood infectious diseas...
A stochastic discrete time version of the susceptible-infected-recovered model for infectious diseas...
Two key linked questions in Population dynamics are the relative importance of noise vs. density-dep...
We present a spatial variant of the time series susceptible-infectious-recovered (TSIR) stochastic p...
The question addressed is whether or not childhood epidemics such as measles and chickenpox are char...
A simple stochastic mathematical model is developed and investigated for the dynamics of measles ep...
How infectious diseases spread in space and time is an important question that has received conside...
Using traditional spectral analysis and recently developed non-linear methods, we analyze the incide...
Time series analysis has revealed two different patterns of smallpox epidemics in Britain in the sev...
We demonstrate the use of the process algebra PEPA for realistic models of epidemiology. The results...
Mathematical models of childhood diseases date back to the early twentieth century. In several cases...
Recurrent outbreaks of infectious diseases such as measles, mumps and rubella indicate the fairly st...
Dramatic changes in patterns of epidemics have been observed throughout this century. For childhood ...
Before the development of mass-vaccination campaigns. measles exhibited persistent fluctuations (end...
Introduction Measles is one of the most communicable infectious diseases. Prior to immunisation, me...
Abstract The goal of this paper is to analyze the stochastic dynamics of childhood infectious diseas...
A stochastic discrete time version of the susceptible-infected-recovered model for infectious diseas...
Two key linked questions in Population dynamics are the relative importance of noise vs. density-dep...
We present a spatial variant of the time series susceptible-infectious-recovered (TSIR) stochastic p...
The question addressed is whether or not childhood epidemics such as measles and chickenpox are char...
A simple stochastic mathematical model is developed and investigated for the dynamics of measles ep...
How infectious diseases spread in space and time is an important question that has received conside...
Using traditional spectral analysis and recently developed non-linear methods, we analyze the incide...
Time series analysis has revealed two different patterns of smallpox epidemics in Britain in the sev...
We demonstrate the use of the process algebra PEPA for realistic models of epidemiology. The results...
Mathematical models of childhood diseases date back to the early twentieth century. In several cases...