For a class of population models ofcompetitive type, we study the asymptotic behavior of the positive solutions as the competition rate tends to infinity. We show that the limiting problem is a remarkable system of differential inequalities, which defines the so-called functional class S. By exploiting the regularity theory recently developed in Conti et al. (Indiana Univ. Math. J., to appear) for the elements of functional classes of the form S, we provide some qualitative and regularity property of the limiting configurations. Besides, for the case of two competing species, we obtain a full description of the limiting states and we prove some quantitative estimates for the rate of convergence. Finally, we prove some new Liouville-type res...
To describe population dynamics, it is crucial to take into account jointly evolution mech-anisms an...
AbstractWe establish the limit system for the Gross–Pitaevskii equations when the segregation phenom...
AbstractWe consider a competition–diffusion system for two competing species; the density of the fir...
For a class of population models ofcompetitive type, we study the asymptotic behavior of the positiv...
AbstractFor a class of population models of competitive type, we study the asymptotic behavior of th...
We investigate the long term behavior for a class of competition\u2013diffusion systems of Lotka\u20...
AbstractThis paper is concerned with the spatial behavior of the non-autonomous competition–diffusio...
Spatial segregation occurs in population dynamics when k species interact in a highly competitive wa...
textIt is the main goal of this thesis to study the regularity of solutions for a nonlinear elliptic...
Abstract. In this work, we show how to obtain a free boundary problem as the limit of a fully non li...
Abstract. We deal with strongly competing multispecies systems of Lotka-Vol– terra type with homogen...
We provide numerical computations for the spatial segregation limit of some 2D competition-diffusion...
(Communicated by the associate editor name) Abstract. To describe population dynamics, it is crucial...
In models of competition in which space is treated as a continuum, and population size as continuous...
In this paper we study a class of stationary states for reaction-diffusion systems of three or more ...
To describe population dynamics, it is crucial to take into account jointly evolution mech-anisms an...
AbstractWe establish the limit system for the Gross–Pitaevskii equations when the segregation phenom...
AbstractWe consider a competition–diffusion system for two competing species; the density of the fir...
For a class of population models ofcompetitive type, we study the asymptotic behavior of the positiv...
AbstractFor a class of population models of competitive type, we study the asymptotic behavior of th...
We investigate the long term behavior for a class of competition\u2013diffusion systems of Lotka\u20...
AbstractThis paper is concerned with the spatial behavior of the non-autonomous competition–diffusio...
Spatial segregation occurs in population dynamics when k species interact in a highly competitive wa...
textIt is the main goal of this thesis to study the regularity of solutions for a nonlinear elliptic...
Abstract. In this work, we show how to obtain a free boundary problem as the limit of a fully non li...
Abstract. We deal with strongly competing multispecies systems of Lotka-Vol– terra type with homogen...
We provide numerical computations for the spatial segregation limit of some 2D competition-diffusion...
(Communicated by the associate editor name) Abstract. To describe population dynamics, it is crucial...
In models of competition in which space is treated as a continuum, and population size as continuous...
In this paper we study a class of stationary states for reaction-diffusion systems of three or more ...
To describe population dynamics, it is crucial to take into account jointly evolution mech-anisms an...
AbstractWe establish the limit system for the Gross–Pitaevskii equations when the segregation phenom...
AbstractWe consider a competition–diffusion system for two competing species; the density of the fir...