AbstractThe most basic stochastic epidemic models are those involving global transmission, meaning that infection rates depend only on the type and state of the individuals involved, and not on their location in the population. Simple as they are, there are still several open problems for such models. For example, when will such an epidemic go extinct and with what probability (questions depending on the population being fixed, changing or growing)? How can a model be defined explaining the sometimes observed scenario of frequent mid-sized epidemic outbreaks? How can evolution of the infectious agent transmission rates be modelled and fitted to data in a robust way
Global strategies to contain a pandemic, such as social distancing and protective measures, are desi...
In this talk we extend the classical SIS (susceptible-infected-susceptible) epidemic model from a de...
We propose two variants of a stochastic epidemic model in which the disease is spread by mobile part...
AbstractThe most basic stochastic epidemic models are those involving global transmission, meaning t...
In this thesis several problems concerning the stochastic modelling of emerging infections are consi...
The spread of an epidemic process is considered in the context of a spatial SIR stochastic model tha...
A stochastic continuous-infection model is developed that describes the evolution of an infectious d...
In this paper we extend the classical susceptible-infected-susceptible epidemic model from a determi...
AbstractDeterministic models have a long history of being applied to the study of infectious disease...
Introduction Recent research has revealed a surge in the application of Stochastic Differential Equ...
In this paper we extend the classical susceptible-infected-susceptible epidemic model from a determi...
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
We consider a stochastic model for the spread of an SIR (susceptible --> infective --> removed) epid...
This paper is a survey paper on stochastic epidemic models. A simple stochastic epidemic model is de...
The thesis is made up of three chapters, which analyse the disease spreads within the population in...
Global strategies to contain a pandemic, such as social distancing and protective measures, are desi...
In this talk we extend the classical SIS (susceptible-infected-susceptible) epidemic model from a de...
We propose two variants of a stochastic epidemic model in which the disease is spread by mobile part...
AbstractThe most basic stochastic epidemic models are those involving global transmission, meaning t...
In this thesis several problems concerning the stochastic modelling of emerging infections are consi...
The spread of an epidemic process is considered in the context of a spatial SIR stochastic model tha...
A stochastic continuous-infection model is developed that describes the evolution of an infectious d...
In this paper we extend the classical susceptible-infected-susceptible epidemic model from a determi...
AbstractDeterministic models have a long history of being applied to the study of infectious disease...
Introduction Recent research has revealed a surge in the application of Stochastic Differential Equ...
In this paper we extend the classical susceptible-infected-susceptible epidemic model from a determi...
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
We consider a stochastic model for the spread of an SIR (susceptible --> infective --> removed) epid...
This paper is a survey paper on stochastic epidemic models. A simple stochastic epidemic model is de...
The thesis is made up of three chapters, which analyse the disease spreads within the population in...
Global strategies to contain a pandemic, such as social distancing and protective measures, are desi...
In this talk we extend the classical SIS (susceptible-infected-susceptible) epidemic model from a de...
We propose two variants of a stochastic epidemic model in which the disease is spread by mobile part...