Cellular automata models for the formation of Liesegang structures are proposed. This novel approach, which takes into account the fluctuations for the first time, describes the problem at a microscopic scale, in terms of reaction, diffusion, nucleation, and aggregation processes. We present large scale numerical simulations which provide clear verifications of the time and spacing laws and predict a novel behavior for the widths of the patterns. We show that two different microscopic reaction schemes are possible for producing Liesegang structures and we propose a phase diagram showing the different types of possible patterns
One of the most important problems in contemporary science, and especially in biology, is to reveal ...
We consider the use of reaction-diffusion equations to model biological pattern formation and descri...
We study a binary-cell-state eight-cell neighborhood two-dimensional cellular automaton model of a q...
A microscopic approach to the formation of Liesegang patterns, based on a cellular automata model, i...
ABSTRACT: The Cellular Automata method has been used to simulate the pattern formation of the Schlög...
A cellular automaton (CA) is a discrete microscopic dynamical system widely used to investigate and ...
Abstract. We explore a mechanism of pattern formation arising in processes described by a system of ...
In low dimensions, reaction-diffusion phenomena may not be correctly described by the usual differen...
Abstract. In this article different mathematical models of the Liesegang phenomenon are exhibited. T...
Abstract-The Liesegang pattern formation in three dimensional reaction-diffusion systems is numerica...
Abstract: The simplest cellular automata for the basic model of mathematical physics su...
In this article different mathematical models of the Liesegang phenomenon are exhibited. The main pr...
The Turing pattern model is one of the theories used to describe organism formation patterns. Using ...
In this thesis we examine mathematical models which have been suggested as possibile mechanisms for ...
In this paper we present mathematical approaches to understand a symmetry break and formation of spa...
One of the most important problems in contemporary science, and especially in biology, is to reveal ...
We consider the use of reaction-diffusion equations to model biological pattern formation and descri...
We study a binary-cell-state eight-cell neighborhood two-dimensional cellular automaton model of a q...
A microscopic approach to the formation of Liesegang patterns, based on a cellular automata model, i...
ABSTRACT: The Cellular Automata method has been used to simulate the pattern formation of the Schlög...
A cellular automaton (CA) is a discrete microscopic dynamical system widely used to investigate and ...
Abstract. We explore a mechanism of pattern formation arising in processes described by a system of ...
In low dimensions, reaction-diffusion phenomena may not be correctly described by the usual differen...
Abstract. In this article different mathematical models of the Liesegang phenomenon are exhibited. T...
Abstract-The Liesegang pattern formation in three dimensional reaction-diffusion systems is numerica...
Abstract: The simplest cellular automata for the basic model of mathematical physics su...
In this article different mathematical models of the Liesegang phenomenon are exhibited. The main pr...
The Turing pattern model is one of the theories used to describe organism formation patterns. Using ...
In this thesis we examine mathematical models which have been suggested as possibile mechanisms for ...
In this paper we present mathematical approaches to understand a symmetry break and formation of spa...
One of the most important problems in contemporary science, and especially in biology, is to reveal ...
We consider the use of reaction-diffusion equations to model biological pattern formation and descri...
We study a binary-cell-state eight-cell neighborhood two-dimensional cellular automaton model of a q...