We study multi-patch epidemic models where individuals may migrate from one patch to another in either of the susceptible, exposed/latent, infectious and recovered states. We assume that infections occur both locally with a rate that depends on the patch as well as "from distance" from all the other patches. The exposed and infectious periods have general distributions, and are not affected by the possible migrations of the individuals. The migration processes in either of the three states are assumed to be Markovian, and independent of the exposed and infectious periods. We establish a functional law of large number (FLLN) and a function central limit theorem (FCLT) for the susceptible, exposed/latent, infectious and recovered processes. I...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
As we known, infectious diseases can be transmitted from one region to another due to extensive trav...
International audienceWe develop a multi-patch and multi-group model that captures the dynamics of a...
In this paper, we prove functional central limit theorems (FCLTs) for a stochastic epidemic model wi...
We introduce an epidemic model with varying infectivity and general exposed and infectious periods, ...
In this survey paper, we review the recent advances in individual based non--Markovian epidemic mode...
International audienceThis paper presents a law of large numbers result, as the size of the populati...
International audienceWe introduce an epidemic model with varying infectivity and general exposed an...
The duration of the infectious period is crucial in determining the ability of an infectious disease...
The duration of the infectious period is a crucial determinant of the ability of an infectious disea...
In this survey paper, we review the recent advances in individual based non--Markovian epidemic mode...
International audienceWe study epidemic models where the infectivity of each individual is a random ...
This paper investigates the dynamics of infectious diseases with a nonexponentially distributed infe...
We study an individual-based stochastic epidemic model in which infected individuals become suscepti...
We present a mathematical analysis of the transmission of certain diseases using a stochastic suscep...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
As we known, infectious diseases can be transmitted from one region to another due to extensive trav...
International audienceWe develop a multi-patch and multi-group model that captures the dynamics of a...
In this paper, we prove functional central limit theorems (FCLTs) for a stochastic epidemic model wi...
We introduce an epidemic model with varying infectivity and general exposed and infectious periods, ...
In this survey paper, we review the recent advances in individual based non--Markovian epidemic mode...
International audienceThis paper presents a law of large numbers result, as the size of the populati...
International audienceWe introduce an epidemic model with varying infectivity and general exposed an...
The duration of the infectious period is crucial in determining the ability of an infectious disease...
The duration of the infectious period is a crucial determinant of the ability of an infectious disea...
In this survey paper, we review the recent advances in individual based non--Markovian epidemic mode...
International audienceWe study epidemic models where the infectivity of each individual is a random ...
This paper investigates the dynamics of infectious diseases with a nonexponentially distributed infe...
We study an individual-based stochastic epidemic model in which infected individuals become suscepti...
We present a mathematical analysis of the transmission of certain diseases using a stochastic suscep...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
As we known, infectious diseases can be transmitted from one region to another due to extensive trav...
International audienceWe develop a multi-patch and multi-group model that captures the dynamics of a...