A method for constructing a variety of probabilistic lattice-gas cellular automata for chemically reacting systems is described. The microscopic reactive dynamics give rise to a general fourth-order polynomial rate law for the average particle density. The reduction of the microdynamical equations to a discrete or continuous Boltzmann equation is presented. Connection between the linearized Boltzmann equations and a reaction-diffusion macroscopic equation is discussed. As an example of the general formalism a set of cellular automata rules that yield the Schlögl phenomenological model is constructed. Simulation results are presented. © 1990 The American Physical Society.SCOPUS: ar.jinfo:eu-repo/semantics/publishe
Cellular automata are frequently used to model chemical reactions and processes. In this paper, a di...
In many equilibrium or nonequilibrium statistical physics problems, fluctuations play a crucial role...
In this thesis, we propose a stochastic cellular-automaton model that is able to simulate oscillator...
A probabilistic lattice gas cellular automaton model of a chemically reacting system is constructed....
A cellular automaton (CA) is a discrete microscopic dynamical system widely used to investigate and ...
We introduce a class of cellular automata (CA) to model reaction-diffusion systems in a quantitative...
Lattice-gas cellular automata (LGCA) and lattice Boltzmann models (LBM) are relatively new and promi...
Cellular automata (CA) are fully discrete dynamical systems. Space is represented by a regular latti...
Lattice gas automata are a powerful tool to model reaction-diffusion processes. However, the evoluti...
We present a lattice-gas automaton approach to coupled reaction-diffusion equations. This approach p...
286-290Class of cellular automata (CA) for modeling reaction diffusion systems has been presented. ...
ABSTRACT: The Cellular Automata method has been used to simulate the pattern formation of the Schlög...
The lattice gas automata (LGA) technique as an alternative to the partial differential equation (PDE...
Biochemical processes occur through intermediate steps which are associated with the formation of re...
Biochemical processes occur through intermediate steps which are associated with the formation of re...
Cellular automata are frequently used to model chemical reactions and processes. In this paper, a di...
In many equilibrium or nonequilibrium statistical physics problems, fluctuations play a crucial role...
In this thesis, we propose a stochastic cellular-automaton model that is able to simulate oscillator...
A probabilistic lattice gas cellular automaton model of a chemically reacting system is constructed....
A cellular automaton (CA) is a discrete microscopic dynamical system widely used to investigate and ...
We introduce a class of cellular automata (CA) to model reaction-diffusion systems in a quantitative...
Lattice-gas cellular automata (LGCA) and lattice Boltzmann models (LBM) are relatively new and promi...
Cellular automata (CA) are fully discrete dynamical systems. Space is represented by a regular latti...
Lattice gas automata are a powerful tool to model reaction-diffusion processes. However, the evoluti...
We present a lattice-gas automaton approach to coupled reaction-diffusion equations. This approach p...
286-290Class of cellular automata (CA) for modeling reaction diffusion systems has been presented. ...
ABSTRACT: The Cellular Automata method has been used to simulate the pattern formation of the Schlög...
The lattice gas automata (LGA) technique as an alternative to the partial differential equation (PDE...
Biochemical processes occur through intermediate steps which are associated with the formation of re...
Biochemical processes occur through intermediate steps which are associated with the formation of re...
Cellular automata are frequently used to model chemical reactions and processes. In this paper, a di...
In many equilibrium or nonequilibrium statistical physics problems, fluctuations play a crucial role...
In this thesis, we propose a stochastic cellular-automaton model that is able to simulate oscillator...