[[abstract]]We study an initial boundary value problem for a reaction–diffusion system arising in the study of a singular predator–prey system. Under an assumption on the growth rates, we first prove that the unique co-existence state is a center for the kinetic system. Then we prove that solutions of the diffusion system with equal diffusivity become spatially homogeneous and are subject to the kinetic part asymptotically.[[notice]]補正完
In many existing predator–prey or plant–herbivore models, the numerical response is assumed to be pr...
In this paper, a diffusive predator–prey system with a functional response that increases in both pr...
This work is concerned with the dynamical behaviors of a singular predator-prey model. We first revi...
Abstract. This note is dedicated to the question of global existence for so-lutions to a two compone...
We consider a singular reaction-diffusion system arising in modelling prey-predator interactions in ...
This note is dedicated to the question of global existence for so- lutions to a two component singul...
Many systems in biology and chemistry are oscillatory, with a stable, spatially homogeneous steady s...
The ratio-dependent predator–prey model exhibits rich interesting dynamics due to the singularity of...
International audienceThis note is dedicated to the question of global existence for so- lutions to ...
[[abstract]]We study the large time behavior of a class of diffusive predator–prey systems posed on ...
The paper deals with a diffusive two predators–one prey model with Holling-type II functional respon...
The paper deals with a diffusive two predators–one prey model with Holling-type II functional respon...
Abstract This paper is concerned with a reaction-diffusion predator–prey model with prey-taxis and i...
We are concerned with a system of nonlinear partial differential equations modeling the Lotka–Volter...
AbstractThis paper proves that several initial-boundary value problems for a wide class of nonlinear...
In many existing predator–prey or plant–herbivore models, the numerical response is assumed to be pr...
In this paper, a diffusive predator–prey system with a functional response that increases in both pr...
This work is concerned with the dynamical behaviors of a singular predator-prey model. We first revi...
Abstract. This note is dedicated to the question of global existence for so-lutions to a two compone...
We consider a singular reaction-diffusion system arising in modelling prey-predator interactions in ...
This note is dedicated to the question of global existence for so- lutions to a two component singul...
Many systems in biology and chemistry are oscillatory, with a stable, spatially homogeneous steady s...
The ratio-dependent predator–prey model exhibits rich interesting dynamics due to the singularity of...
International audienceThis note is dedicated to the question of global existence for so- lutions to ...
[[abstract]]We study the large time behavior of a class of diffusive predator–prey systems posed on ...
The paper deals with a diffusive two predators–one prey model with Holling-type II functional respon...
The paper deals with a diffusive two predators–one prey model with Holling-type II functional respon...
Abstract This paper is concerned with a reaction-diffusion predator–prey model with prey-taxis and i...
We are concerned with a system of nonlinear partial differential equations modeling the Lotka–Volter...
AbstractThis paper proves that several initial-boundary value problems for a wide class of nonlinear...
In many existing predator–prey or plant–herbivore models, the numerical response is assumed to be pr...
In this paper, a diffusive predator–prey system with a functional response that increases in both pr...
This work is concerned with the dynamical behaviors of a singular predator-prey model. We first revi...
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