This paper presents a law of large numbers result, as the size of the population tends to infinity, of SIR stochastic epidemic models, for a population distributed over $L$ distinct patches (with migrations between them) and $K$ distinct groups (possibly age groups). The limit is a set of Volterra-type integral equations, and the result shows the effects of both spatial and population heterogeneity. The novelty of the model is that the infectivity of an infected individual is infection age dependent. More precisely, to each infected individual is attached a random infection-age dependent infectivity function, such that the various random functions attached to distinct individuals are i.i.d. The proof involves a novel construction of a seq...
AbstractBy means of the law of large numbers and the central limit theorem, we compare the spatial e...
We consider a stochastic SIR (susceptible → infective → removed) epidemic model with several types o...
This paper presents a new view of household epidemic models, where the interaction between the house...
International audienceThis paper presents a law of large numbers result, as the size of the populati...
We study an individual-based stochastic epidemic model in which infected individuals become suscepti...
International audienceWe study epidemic models where the infectivity of each individual is a random ...
International audienceWe introduce an epidemic model with varying infectivity and general exposed an...
We introduce an epidemic model with varying infectivity and general exposed and infectious periods, ...
We study epidemic models where the infectivity of each individual is a random function of the infect...
When modelling metapopulation dynamics, the influence of a single patch on the metapopulation depend...
The current work deals with an epidemic model on the complete graph K_n on n vertices in a non-homog...
We study multi-patch epidemic models where individuals may migrate from one patch to another in eith...
In this survey paper, we review the recent advances in individual based non--Markovian epidemic mode...
We study a class of individual-based, fixed-population size epidemic models under general assumption...
In this survey paper, we review the recent advances in individual based non--Markovian epidemic mode...
AbstractBy means of the law of large numbers and the central limit theorem, we compare the spatial e...
We consider a stochastic SIR (susceptible → infective → removed) epidemic model with several types o...
This paper presents a new view of household epidemic models, where the interaction between the house...
International audienceThis paper presents a law of large numbers result, as the size of the populati...
We study an individual-based stochastic epidemic model in which infected individuals become suscepti...
International audienceWe study epidemic models where the infectivity of each individual is a random ...
International audienceWe introduce an epidemic model with varying infectivity and general exposed an...
We introduce an epidemic model with varying infectivity and general exposed and infectious periods, ...
We study epidemic models where the infectivity of each individual is a random function of the infect...
When modelling metapopulation dynamics, the influence of a single patch on the metapopulation depend...
The current work deals with an epidemic model on the complete graph K_n on n vertices in a non-homog...
We study multi-patch epidemic models where individuals may migrate from one patch to another in eith...
In this survey paper, we review the recent advances in individual based non--Markovian epidemic mode...
We study a class of individual-based, fixed-population size epidemic models under general assumption...
In this survey paper, we review the recent advances in individual based non--Markovian epidemic mode...
AbstractBy means of the law of large numbers and the central limit theorem, we compare the spatial e...
We consider a stochastic SIR (susceptible → infective → removed) epidemic model with several types o...
This paper presents a new view of household epidemic models, where the interaction between the house...