Rule 22 elementary cellular automaton (ECA) has a three-cell neighborhood, binary cell state, where a cell takes state "1" if there is exactly one neighbor, including the cell itself, in state 1. In Boolean terms, the cell state transition is an XOR function of three cell states. In physico- chemical terms, the rule might be seen as describing propagation of self-inhibiting quantities/species. Spacetime dynamics of rule 22 demonstrate nontrivial patterns and quasi-chaotic behavior. We characterize the phenomena observed in this rule using mean field theory, attractors, de Bruijn diagrams, subset diagrams, filters, fractals and memory.Web of Science28217412
"Glider" dynamics in cellular automata (CA), where coherent configurations emerge and inte...
This book focuses on a coherent representation of the main approaches to analyze the dynamics of cel...
. We present new tools allowing a formal classification of cellular automata, i.e. transfinite attr...
We map cell-state transition rules of elementary cellular automata (ECA) onto the cog-nitive control...
In this paper we deal with 1-D finite cellular automata with a triplet local transition rule 14 and ...
The basic rules of self-organization using a totalistic cellular automaton (CA) were investigated, f...
The study of cellular automata (CA) was motivated recently by their application to systems whose com...
The complex dynamical behaviors of rule 58 in cellular automata are investigated from the viewpoint ...
In the qualitative classification of cellular automata (CA) rules by Wolfram [Rev. Mod. Phys. 55, 60...
Abstract—In this paper a new rule in cellular automata is introduced. Through phenomenological studi...
A rule dynamical system is constructed using one-dimensional elementary cellular au-tomata, and the ...
We study a binary-cell-state eight-cell neighborhood two-dimensional cellular automaton model of a q...
Complex systems such as Cellular Automata (CA) produce global behaviour based on the interactions of...
the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduc...
mcintosh @ unam. mx The dynamics of rule 54 one-dimensional two-state cellular automaton (CA) are a ...
"Glider" dynamics in cellular automata (CA), where coherent configurations emerge and inte...
This book focuses on a coherent representation of the main approaches to analyze the dynamics of cel...
. We present new tools allowing a formal classification of cellular automata, i.e. transfinite attr...
We map cell-state transition rules of elementary cellular automata (ECA) onto the cog-nitive control...
In this paper we deal with 1-D finite cellular automata with a triplet local transition rule 14 and ...
The basic rules of self-organization using a totalistic cellular automaton (CA) were investigated, f...
The study of cellular automata (CA) was motivated recently by their application to systems whose com...
The complex dynamical behaviors of rule 58 in cellular automata are investigated from the viewpoint ...
In the qualitative classification of cellular automata (CA) rules by Wolfram [Rev. Mod. Phys. 55, 60...
Abstract—In this paper a new rule in cellular automata is introduced. Through phenomenological studi...
A rule dynamical system is constructed using one-dimensional elementary cellular au-tomata, and the ...
We study a binary-cell-state eight-cell neighborhood two-dimensional cellular automaton model of a q...
Complex systems such as Cellular Automata (CA) produce global behaviour based on the interactions of...
the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduc...
mcintosh @ unam. mx The dynamics of rule 54 one-dimensional two-state cellular automaton (CA) are a ...
"Glider" dynamics in cellular automata (CA), where coherent configurations emerge and inte...
This book focuses on a coherent representation of the main approaches to analyze the dynamics of cel...
. We present new tools allowing a formal classification of cellular automata, i.e. transfinite attr...