A construction of two-dimensional random substitution systems

A two-dimensional substitution is a function that maps every letter in an alphabet to a predetermined rectangular word. It is said to be rectangular-preserving if any letter can be iterated infinitely many times via the canonical concatenation to produce larger and larger rectangular words. This typ...

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Bibliographic Details
Main Authors: Felipe, Bryan Ceasar L., Miro, Eden Delight P.
Format: Conference Proceeding
Language:English
Subjects:
Substitutes
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Summary:A two-dimensional substitution is a function that maps every letter in an alphabet to a predetermined rectangular word. It is said to be rectangular-preserving if any letter can be iterated infinitely many times via the canonical concatenation to produce larger and larger rectangular words. This type of substitution is a natural generalization of the one-dimensional deterministic substitution. In this study, we construct a random generalization of the two-dimensional rectangular-preserving substitutions. In particular, we extend the notion of rectangular-preserving to two-dimensional finite-set-valued substitution, a function where every letter is assigned a finite set of nonempty rectangular words, in order to define what we call as two-dimensional rectangular-preserving random substitutions. We give a simple necessary and sufficient condition for a two-dimensional finite-set-valued substitution to be rectangular-preserving. We also define a family of one-dimensional random substitutions such that the product of any two random substitutions in this family give rise to a two-dimensional rectangular-preserving random substitution. Finally, we discuss the associated two-dimensional subshifts to rectangular-preserving random substitutions and present some dynamical properties of the corresponding systems.
ISSN:0094-243X
1551-7616
DOI:10.1063/5.0192196