Elementary cellular automaton Rule 110 explained as a block substitution system
Seck Tuoh Mora, Juan Carlos
2010
Seck-Tuoh-Mora, J. C., Martínez, G. J., Hernández-Romero N., & Medina-Marin, J. (2010). Elementary cellular automaton Rule 110 explained as a block substitution system. Computing, 88(3-4), 193-205.
Abstract
This paper presents the characterization of Rule 110 as a block substitution system of three symbols. Firstly, it is proved that the dynamics of Rule 110 is equivalent to cover the evolution space with triangles formed by the cells of the automaton. It is hence demonstrated that every finite configuration can be partitioned in several blocks of symbols and, that the dynamics of Rule 110 can be reproduced by a set of production rules applied to them. The shape of the blocks in the current configuration can be used for knowing the number of them in the next one; with this, the evolution of random configurations, ether and gliders can be modeled.
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Elementary cellular automaton Rule 110 explained as a block substitution system