Motivated by questions in biology and distributed computing, the authors investigate the behaviour of particular cellular automata, modelled as one-dimensional arrays of identical finite automata. They investigate what kinds of self-stabilising cooperative behaviour may be induced in terms of waves of cellular state changes along a filament of cells. The authors report the minimum requirements, in terms of numbers of states and the range of communication between automata, for this behaviour to be observed in individual filaments. They also discover that populations of growing filaments may have useful features not possessed by individual filaments, and they report the results of numerical simulations
A Cellular automaton is a simple mathematical model that can exhibit a complex behavior. It was intr...
Abstract: The simplest cellular automata for the basic model of mathematical physics su...
Self-organization is ubiquitous in nature. Self-organizing systems are highly distributed, composed ...
Cellular automata (CA) are fully discrete dynamical systems. Space is represented by a regular latti...
Reaction-diffusion equations whose kinetics contain a stable limit cycle are an established class of...
A stochastic cellular automaton is developed for modeling waves in excitable media. A scale of key f...
We consider cellular automata to describe the surface of waterwaves. This description will be used i...
The heart tissue is an excitable media. A Cellular Automata is a type of model that can be used to m...
A cellular automaton is an iterative array of very simple identical information processing machine...
Abstract. Dynamical aspects of the asymmetric cellular automata were in-vestigated to consider the s...
Information processing in living tissues is dramatically different from what we see in common man-ma...
This book focuses on a coherent representation of the main approaches to analyze the dynamics of cel...
The interaction of waves and obstacles is simulated by adding heterogeneities to a FitzHugh-Nagumo m...
The Turing pattern model is one of the theories used to describe organism formation patterns. Using ...
<p>The 1D system consists of a linear row (x-direction) of <i>N</i> = 100 cells. States are decoded ...
A Cellular automaton is a simple mathematical model that can exhibit a complex behavior. It was intr...
Abstract: The simplest cellular automata for the basic model of mathematical physics su...
Self-organization is ubiquitous in nature. Self-organizing systems are highly distributed, composed ...
Cellular automata (CA) are fully discrete dynamical systems. Space is represented by a regular latti...
Reaction-diffusion equations whose kinetics contain a stable limit cycle are an established class of...
A stochastic cellular automaton is developed for modeling waves in excitable media. A scale of key f...
We consider cellular automata to describe the surface of waterwaves. This description will be used i...
The heart tissue is an excitable media. A Cellular Automata is a type of model that can be used to m...
A cellular automaton is an iterative array of very simple identical information processing machine...
Abstract. Dynamical aspects of the asymmetric cellular automata were in-vestigated to consider the s...
Information processing in living tissues is dramatically different from what we see in common man-ma...
This book focuses on a coherent representation of the main approaches to analyze the dynamics of cel...
The interaction of waves and obstacles is simulated by adding heterogeneities to a FitzHugh-Nagumo m...
The Turing pattern model is one of the theories used to describe organism formation patterns. Using ...
<p>The 1D system consists of a linear row (x-direction) of <i>N</i> = 100 cells. States are decoded ...
A Cellular automaton is a simple mathematical model that can exhibit a complex behavior. It was intr...
Abstract: The simplest cellular automata for the basic model of mathematical physics su...
Self-organization is ubiquitous in nature. Self-organizing systems are highly distributed, composed ...