Add to ORKGThis paper presents a novel numerical technique, the moving grid finite element method, to solve generalised Turing [20] reaction-diffusion type models on continuously deforming growing domains. Applications to the development of bivalve ligaments and pigmentation colour patterns in the wing of the butterfly Papilio dardanus will be considered, by way of examples
Abstract. This work is concerned with the numerical simulations for two reaction-diffusion systems, ...
This work is concerned with the numerical simulations for two reaction-diffusion systems, i.e., the ...
In this article we propose models and a numerical method for pattern formation on evolving curved su...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
Numerical techniques for moving meshes are many and varied. In this paper we present a novel applica...
Numerical techniques for moving meshes are many and varied. In this paper we present a novel applica...
Numerical techniques for moving meshes are many and varied. In this paper we present a novel applica...
Numerical techniques for moving meshes are many and varied. In this paper we present a novel applica...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
this paper we present a novel application of a moving grid nite element method applied to biologi...
Numerical techniques for moving meshes are many and varied. In this paper we present a novel applica...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
In this article we propose models and a numerical method for patternformation on evolving curved sur...
Abstract. This work is concerned with the numerical simulations for two reaction-diffusion systems, ...
This work is concerned with the numerical simulations for two reaction-diffusion systems, i.e., the ...
In this article we propose models and a numerical method for pattern formation on evolving curved su...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
Numerical techniques for moving meshes are many and varied. In this paper we present a novel applica...
Numerical techniques for moving meshes are many and varied. In this paper we present a novel applica...
Numerical techniques for moving meshes are many and varied. In this paper we present a novel applica...
Numerical techniques for moving meshes are many and varied. In this paper we present a novel applica...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
this paper we present a novel application of a moving grid nite element method applied to biologi...
Numerical techniques for moving meshes are many and varied. In this paper we present a novel applica...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
In this article we propose models and a numerical method for patternformation on evolving curved sur...
Abstract. This work is concerned with the numerical simulations for two reaction-diffusion systems, ...
This work is concerned with the numerical simulations for two reaction-diffusion systems, i.e., the ...
In this article we propose models and a numerical method for pattern formation on evolving curved su...