Pattern formation has been widely observed in extended chemical and biological processes. Although the biochemical systems are highly heterogeneous, homogenized continuum approaches formed by partial differential equations have been employed frequently. Such approaches are usually justified by the difference of scales between the heterogeneities and the characteristic spatial size of the patterns. Under different conditions, for example, under weak coupling, discrete models are more adequate. However, discrete models may be less manageable, for instance, in terms of numerical implementation and mesh generation, than the associated continuum models. Here we study a model to approach discreteness which permits the computer implementation on g...
We use qualitative methods for singularly perturbed systems of differential equations and the princi...
International audienceIn this paper, we address the question of the discretization of Stochastic Par...
A simple scalar coupled map lattice model for excitable media is intensively analysed in this paper....
Pattern formation has been widely observed in extended chemical and biological processes. Although t...
The spatio-temporal patterns formations are observed in chemical and biological pro-cesses. Although...
In this paper, we address the question of the discretization of stochastic partial differential equa...
<p>The main goal of this dissertation was to study the bifurcation structure underlying families of ...
Non-linear waves of excitation are found in various biological, physical and chemical systems and ar...
A general framework for the generation of long wavelength patterns in multi-cellular (discrete) syst...
We propose a new biological framework, spatial networks of hybrid input/output automata (SNHIOA), fo...
AbstractWe propose a new biological framework, spatial networks of hybrid input/output automata (SNH...
We present a method for mesoscopic, dynamic Monte Carlo simulations of pattern formation in excitabl...
The interaction of waves and obstacles is simulated by adding heterogeneities to a FitzHugh-Nagumo m...
Mathematical models for excitable cells are commonly based on cable theory, which considers a homoge...
In this paper the idea of Prandtl's boundary layer is exported to a field other than fluid dynamics....
We use qualitative methods for singularly perturbed systems of differential equations and the princi...
International audienceIn this paper, we address the question of the discretization of Stochastic Par...
A simple scalar coupled map lattice model for excitable media is intensively analysed in this paper....
Pattern formation has been widely observed in extended chemical and biological processes. Although t...
The spatio-temporal patterns formations are observed in chemical and biological pro-cesses. Although...
In this paper, we address the question of the discretization of stochastic partial differential equa...
<p>The main goal of this dissertation was to study the bifurcation structure underlying families of ...
Non-linear waves of excitation are found in various biological, physical and chemical systems and ar...
A general framework for the generation of long wavelength patterns in multi-cellular (discrete) syst...
We propose a new biological framework, spatial networks of hybrid input/output automata (SNHIOA), fo...
AbstractWe propose a new biological framework, spatial networks of hybrid input/output automata (SNH...
We present a method for mesoscopic, dynamic Monte Carlo simulations of pattern formation in excitabl...
The interaction of waves and obstacles is simulated by adding heterogeneities to a FitzHugh-Nagumo m...
Mathematical models for excitable cells are commonly based on cable theory, which considers a homoge...
In this paper the idea of Prandtl's boundary layer is exported to a field other than fluid dynamics....
We use qualitative methods for singularly perturbed systems of differential equations and the princi...
International audienceIn this paper, we address the question of the discretization of Stochastic Par...
A simple scalar coupled map lattice model for excitable media is intensively analysed in this paper....