We propose two variants of a stochastic epidemic model in which the disease is spread by mobile particles performing random walks on the complete graph. For the first model, we study the effect on the epidemic size of an immunization mechanism that depends on the activity of the disease. In the second model, the transmission agents can gain lives at random during their existences. We prove limit theorems for the final outcome of these processes. The epidemic model with mutations exhibits phase transition, meaning that if the mutation parameter is sufficiently large, then asymptotically all the individuals in the population are infected
Almost all epidemic models make the assumption that infection is driven by the interaction between p...
We consider a multitype epidemic model which is a natural extension of the randomized Reed–Frost epi...
The spread of an epidemic process is considered in the context of a spatial SIR stochastic model tha...
We propose two variants of a stochastic epidemic model in which the disease is spread by mobile part...
The study of epidemics on social networks has attracted considerable attention recently. In this pap...
In this paper we consider a model for the spread of a stochastic SIR (Susceptible → Infectious → Rec...
A stochastic epidemic model allowing for both mild and severe infec-tives is defined, where an infec...
The COVID-19 pandemic has dramatically demonstrated the importance of epidemic models in understandi...
This thesis considers stochastic epidemic models for the spread of epidemics in structured populatio...
There has been considerable recent interest in models for epidemics on networks describing social co...
We study a system of random walks, known as the frog model, starting from a profile of independent P...
We consider a stochastic model for the spread of an SIR (susceptible --> infective --> removed) epid...
We study contact epidemic models for the spread of infective diseases in finite populations. The siz...
International audienceWe consider a threshold epidemic model on a clustered random graph model obtai...
We consider a Markovian SIR-type (Susceptible → Infected → Recovered) stochastic epidemic process wi...
Almost all epidemic models make the assumption that infection is driven by the interaction between p...
We consider a multitype epidemic model which is a natural extension of the randomized Reed–Frost epi...
The spread of an epidemic process is considered in the context of a spatial SIR stochastic model tha...
We propose two variants of a stochastic epidemic model in which the disease is spread by mobile part...
The study of epidemics on social networks has attracted considerable attention recently. In this pap...
In this paper we consider a model for the spread of a stochastic SIR (Susceptible → Infectious → Rec...
A stochastic epidemic model allowing for both mild and severe infec-tives is defined, where an infec...
The COVID-19 pandemic has dramatically demonstrated the importance of epidemic models in understandi...
This thesis considers stochastic epidemic models for the spread of epidemics in structured populatio...
There has been considerable recent interest in models for epidemics on networks describing social co...
We study a system of random walks, known as the frog model, starting from a profile of independent P...
We consider a stochastic model for the spread of an SIR (susceptible --> infective --> removed) epid...
We study contact epidemic models for the spread of infective diseases in finite populations. The siz...
International audienceWe consider a threshold epidemic model on a clustered random graph model obtai...
We consider a Markovian SIR-type (Susceptible → Infected → Recovered) stochastic epidemic process wi...
Almost all epidemic models make the assumption that infection is driven by the interaction between p...
We consider a multitype epidemic model which is a natural extension of the randomized Reed–Frost epi...
The spread of an epidemic process is considered in the context of a spatial SIR stochastic model tha...