Add to ORKGInternational audienceWe consider general models of coupled reaction-diffusion systems for interacting variants of the same species. When the total population becomes large with intensive competition, we prove that the frequencies (i.e. proportions) of the variants can be approached by the solution of a simpler reaction-diffusion system, through a singular limit method and a relative compactness argument. As an example of application, we retrieve the classical bistable equation for Wolbachia's spread into an arthropod population from a system modeling interaction between infected and uninfected individuals
We introduce two different reaction diffusion models: evolution of one-cell popula- tions in the pre...
We consider a mathematical model for the spatio-temporal evolution of two biological species in a co...
International audienceWe consider a integro-differential nonlinear model that describes the evolutio...
International audienceWe consider general models of coupled reaction-diffusion systems for interacti...
AbstractThis paper proves that several initial-boundary value problems for a wide class of nonlinear...
This thesis deals with a two component reaction-diffusion system (RDS) for competing and cooperating...
Reaction-diffusion systems are widely used to model the population densities of biological species c...
International audienceThis paper is devoted to the study of systems of reaction-cross diffusion equa...
Abstract. In this survey article, we provide some basic population models and state positive coexist...
Reaction-diffusion systems with strong interaction terms appear in many multi-species physical prob...
AbstractThe coexistence and stability of the population densities of two competing species in a boun...
We study a competition-diffusion model while performing simultaneous homogenization and strong compe...
summary:Two species of animals are competing in the same environment. Under what conditions do they ...
We report on known results on the geometry of the limiting solutions of a reaction-diffusion system ...
AbstractWe show that under certain additional hypothesis, two population competing species models in...
We introduce two different reaction diffusion models: evolution of one-cell popula- tions in the pre...
We consider a mathematical model for the spatio-temporal evolution of two biological species in a co...
International audienceWe consider a integro-differential nonlinear model that describes the evolutio...
International audienceWe consider general models of coupled reaction-diffusion systems for interacti...
AbstractThis paper proves that several initial-boundary value problems for a wide class of nonlinear...
This thesis deals with a two component reaction-diffusion system (RDS) for competing and cooperating...
Reaction-diffusion systems are widely used to model the population densities of biological species c...
International audienceThis paper is devoted to the study of systems of reaction-cross diffusion equa...
Abstract. In this survey article, we provide some basic population models and state positive coexist...
Reaction-diffusion systems with strong interaction terms appear in many multi-species physical prob...
AbstractThe coexistence and stability of the population densities of two competing species in a boun...
We study a competition-diffusion model while performing simultaneous homogenization and strong compe...
summary:Two species of animals are competing in the same environment. Under what conditions do they ...
We report on known results on the geometry of the limiting solutions of a reaction-diffusion system ...
AbstractWe show that under certain additional hypothesis, two population competing species models in...
We introduce two different reaction diffusion models: evolution of one-cell popula- tions in the pre...
We consider a mathematical model for the spatio-temporal evolution of two biological species in a co...
International audienceWe consider a integro-differential nonlinear model that describes the evolutio...