English

Monotone cellular automata in a random environment

Probability 2016-10-26 v4 Combinatorics

Abstract

In this paper we study in complete generality the family of two-state, deterministic, monotone, local, homogeneous cellular automata in Zd\mathbb{Z}^d with random initial configurations. Formally, we are given a set U={X1,,Xm}\mathcal{U}=\{X_1,\dots,X_m\} of finite subsets of Zd{0}\mathbb{Z}^d\setminus\{\mathbf{0}\}, and an initial set A0ZdA_0\subset\mathbb{Z}^d of `infected' sites, which we take to be random according to the product measure with density pp. At time tNt\in\mathbb{N}, the set of infected sites AtA_t is the union of At1A_{t-1} and the set of all xZdx\in\mathbb{Z}^d such that x+XAt1x+X\in A_{t-1} for some XUX\in\mathcal{U}. Our model may alternatively be thought of as bootstrap percolation on Zd\mathbb{Z}^d with arbitrary update rules, and for this reason we call it U\mathcal{U}-bootstrap percolation. In two dimensions, we give a classification of U\mathcal{U}-bootstrap percolation models into three classes -- supercritical, critical and subcritical -- and we prove results about the phase transitions of all models belonging to the first two of these classes. More precisely, we show that the critical probability for percolation on (Z/nZ)2(\mathbb{Z}/n\mathbb{Z})^2 is (logn)Θ(1)(\log n)^{-\Theta(1)} for all models in the critical class, and that it is nΘ(1)n^{-\Theta(1)} for all models in the supercritical class. The results in this paper are the first of any kind on bootstrap percolation considered in this level of generality, and in particular they are the first that make no assumptions of symmetry. It is the hope of the authors that this work will initiate a new, unified theory of bootstrap percolation on Zd\mathbb{Z}^d.

Keywords

Cite

@article{arxiv.1204.3980,
  title  = {Monotone cellular automata in a random environment},
  author = {Béla Bollobás and Paul Smith and Andrew Uzzell},
  journal= {arXiv preprint arXiv:1204.3980},
  year   = {2016}
}

Comments

33 pages, 7 figures

R2 v1 2026-06-21T20:51:12.064Z