Ergodicity versus non-ergodicity for Probabilistic Cellular Automata on rooted trees

Bruno Kimura; Wioletta M. Ruszel; Cristian Spitoni

Ergodicity versus non-ergodicity for Probabilistic Cellular Automata on rooted trees

Bruno Kimura, Wioletta M. Ruszel, Cristian Spitoni

Research output: Contribution to journal › Article › Academic

Abstract

In this article we study a class of shift-invariant and positive rate probabilistic cellular automata (PCA) on rooted d-regular trees $\mathbb{T}^d$. In a first result we extend the results of [10] on trees, namely we prove that to every stationary measure $\nu$ of the PCA we can associate a space-time Gibbs measure $\mu_{\nu}$ on $\mathbb{Z} \times \mathbb{T}^d$. Under certain assumptions on the dynamics the converse is also true. A second result concerns proving sufficient conditions for ergodicity and non-ergodicity of our PCA on d-ary trees for $d\in \{ 1,2,3\}$ and characterizing the invariant product Bernoulli measures.

Original language	Undefined/Unknown
Journal	arXiv.org
Publication status	Published - 29 Sept 2017

Bibliographical note

16 pages

Keywords

nlin.CG

Access to Document

ergodicityFinal published version, 623 KB
1710.00084v1

Cite this

@article{6e135a7b57e04c56aad8f492759dd77c,

title = "Ergodicity versus non-ergodicity for Probabilistic Cellular Automata on rooted trees",

abstract = "In this article we study a class of shift-invariant and positive rate probabilistic cellular automata (PCA) on rooted d-regular trees \$\textbackslash{}mathbb\{T\}\textasciicircum{}d\$. In a first result we extend the results of [10] on trees, namely we prove that to every stationary measure \$\textbackslash{}nu\$ of the PCA we can associate a space-time Gibbs measure \$\textbackslash{}mu\_\{\textbackslash{}nu\}\$ on \$\textbackslash{}mathbb\{Z\} \textbackslash{}times \textbackslash{}mathbb\{T\}\textasciicircum{}d\$. Under certain assumptions on the dynamics the converse is also true. A second result concerns proving sufficient conditions for ergodicity and non-ergodicity of our PCA on d-ary trees for \$d\textbackslash{}in \textbackslash{}\{ 1,2,3\textbackslash{}\}\$ and characterizing the invariant product Bernoulli measures.",

keywords = "nlin.CG",

author = "Bruno Kimura and Ruszel, \{Wioletta M.\} and Cristian Spitoni",

note = "16 pages",

year = "2017",

month = sep,

day = "29",

language = "Undefined/Unknown",

journal = "arXiv.org",

}

TY - JOUR

T1 - Ergodicity versus non-ergodicity for Probabilistic Cellular Automata on rooted trees

AU - Kimura, Bruno

AU - Ruszel, Wioletta M.

AU - Spitoni, Cristian

N1 - 16 pages

PY - 2017/9/29

Y1 - 2017/9/29

N2 - In this article we study a class of shift-invariant and positive rate probabilistic cellular automata (PCA) on rooted d-regular trees $\mathbb{T}^d$. In a first result we extend the results of [10] on trees, namely we prove that to every stationary measure $\nu$ of the PCA we can associate a space-time Gibbs measure $\mu_{\nu}$ on $\mathbb{Z} \times \mathbb{T}^d$. Under certain assumptions on the dynamics the converse is also true. A second result concerns proving sufficient conditions for ergodicity and non-ergodicity of our PCA on d-ary trees for $d\in \{ 1,2,3\}$ and characterizing the invariant product Bernoulli measures.

AB - In this article we study a class of shift-invariant and positive rate probabilistic cellular automata (PCA) on rooted d-regular trees $\mathbb{T}^d$. In a first result we extend the results of [10] on trees, namely we prove that to every stationary measure $\nu$ of the PCA we can associate a space-time Gibbs measure $\mu_{\nu}$ on $\mathbb{Z} \times \mathbb{T}^d$. Under certain assumptions on the dynamics the converse is also true. A second result concerns proving sufficient conditions for ergodicity and non-ergodicity of our PCA on d-ary trees for $d\in \{ 1,2,3\}$ and characterizing the invariant product Bernoulli measures.

KW - nlin.CG

M3 - Article

JO - arXiv.org

JF - arXiv.org

ER -