This paper shows the global existence and boundedness of solutions of a reaction diffusion system modeling liver infections. The existence proof is presented step by step and the focus lies on the interpretation of intermediate results in the context of liver infections which is modeled. Non-local effects in the dynamics between the virus and the immune system cells coming from the immune response in the lymphs lead to an integro-partial differential equation. While existence theorems for parabolic partial differential equations are textbook examples in the field, the additional integral term requires new approaches to proving the global existence of a solution. This allows to set up an existence proof with a focus on interpretation leading...
AbstractWe provide some results on the global existence and boundeness of the solution of a reaction...
In this paper we prove the existence of global solutions of the haptotaxis model of cancer invasion ...
In this work, we develop a mathematical framework for predicting and quantifying virus diversity evo...
This paper shows the global existence and boundedness of solutions of a reaction diffusion system mo...
The goal of this work is to study the global existence in time of solutions for some coupled systems...
This article investigate a nonlocal reaction-diffusion system of equations modeling virus distributi...
We consider a reaction-diffusion system modeling the spread of an epidemic disease within a populati...
The paper is devoted to a nonlocal reaction-diffusion equation describing the development of viral i...
We consider coupled reaction-diffusion models, where some components react and diffuse on the bounda...
International audienceWe provide existence results for nonnegative solutions to a class of reaction-...
We construct and analyze a nonlinear reaction-diffusion epidemiology model consisting of two integra...
This paper is concerned with the well-posedness of a diffusion-reaction system for a susceptible-exp...
In this paper an old model for the temporal and spatial evolution of orofecal transmitted disease is...
We consider a reaction-diffusion system modeling the spread of an epidemic disease within a populati...
We construct and analyze a nonlocal global pandemic model that comprises a system of two nonlocal in...
AbstractWe provide some results on the global existence and boundeness of the solution of a reaction...
In this paper we prove the existence of global solutions of the haptotaxis model of cancer invasion ...
In this work, we develop a mathematical framework for predicting and quantifying virus diversity evo...
This paper shows the global existence and boundedness of solutions of a reaction diffusion system mo...
The goal of this work is to study the global existence in time of solutions for some coupled systems...
This article investigate a nonlocal reaction-diffusion system of equations modeling virus distributi...
We consider a reaction-diffusion system modeling the spread of an epidemic disease within a populati...
The paper is devoted to a nonlocal reaction-diffusion equation describing the development of viral i...
We consider coupled reaction-diffusion models, where some components react and diffuse on the bounda...
International audienceWe provide existence results for nonnegative solutions to a class of reaction-...
We construct and analyze a nonlinear reaction-diffusion epidemiology model consisting of two integra...
This paper is concerned with the well-posedness of a diffusion-reaction system for a susceptible-exp...
In this paper an old model for the temporal and spatial evolution of orofecal transmitted disease is...
We consider a reaction-diffusion system modeling the spread of an epidemic disease within a populati...
We construct and analyze a nonlocal global pandemic model that comprises a system of two nonlocal in...
AbstractWe provide some results on the global existence and boundeness of the solution of a reaction...
In this paper we prove the existence of global solutions of the haptotaxis model of cancer invasion ...
In this work, we develop a mathematical framework for predicting and quantifying virus diversity evo...