Add to ORKGInternational audienceWe analyze a virus propagation dynamics in a large population of agents (or nodes) with three possible states (Susceptible, Infected, Recovered) where agents may choose to vaccinate. We show that this system admits a unique symmetric equilibrium when the number of agents goes to infinity. We also show that the vaccination strategy that minimizes the social cost has the same threshold structure as the mean field equilibrium, but with a shorter threshold. This implies that, to encourage optimal vaccination behavior, vaccination should always be subsidized
International audienceWe consider an SIR model with vaccination strategy on a sparse configuration m...
We consider the simple epidemiological SIS model for a general heterogeneous population introduced b...
We consider the spread of infectious diseases through a Mean Field Game version of a SIR compartment...
International audienceIn this paper, we analyze a mean field game model of SIR dynamics (Susceptible...
International audienceWe model in this paper the multipopulation vaccinatinon game over a fully conn...
In this paper, we analyze a mean-field game model of SIR dynamics (Susceptible, Infected, Recovered)...
Vaccination is an effective way to prevent an epidemic. It results in immunity for the vaccinated in...
In this paper, we study the vaccination of graphs against the outbreak of infectious diseases, in th...
The containment of epidemic spreading is a major challenge in science. Vaccination, whenever availab...
Cette thèse est motivée par la modélisation mathématique de l'hétérogénéité des contats dans les pop...
Vaccination is an effective way to prevent an epidemic. It results in immunity for the vaccinated in...
In this work we analyze the evolution of voluntary vaccination in networked populations by entanglin...
We consider an SIR model with vaccination strategy on a sparse configuration model random graph. We ...
Vaccination is the most effective method of preventing the spread of infectious diseases. In this ...
The vaccination against non recurrent epidemics is seldom compul-sory but remains one of the most cl...
International audienceWe consider an SIR model with vaccination strategy on a sparse configuration m...
We consider the simple epidemiological SIS model for a general heterogeneous population introduced b...
We consider the spread of infectious diseases through a Mean Field Game version of a SIR compartment...
International audienceIn this paper, we analyze a mean field game model of SIR dynamics (Susceptible...
International audienceWe model in this paper the multipopulation vaccinatinon game over a fully conn...
In this paper, we analyze a mean-field game model of SIR dynamics (Susceptible, Infected, Recovered)...
Vaccination is an effective way to prevent an epidemic. It results in immunity for the vaccinated in...
In this paper, we study the vaccination of graphs against the outbreak of infectious diseases, in th...
The containment of epidemic spreading is a major challenge in science. Vaccination, whenever availab...
Cette thèse est motivée par la modélisation mathématique de l'hétérogénéité des contats dans les pop...
Vaccination is an effective way to prevent an epidemic. It results in immunity for the vaccinated in...
In this work we analyze the evolution of voluntary vaccination in networked populations by entanglin...
We consider an SIR model with vaccination strategy on a sparse configuration model random graph. We ...
Vaccination is the most effective method of preventing the spread of infectious diseases. In this ...
The vaccination against non recurrent epidemics is seldom compul-sory but remains one of the most cl...
International audienceWe consider an SIR model with vaccination strategy on a sparse configuration m...
We consider the simple epidemiological SIS model for a general heterogeneous population introduced b...
We consider the spread of infectious diseases through a Mean Field Game version of a SIR compartment...