English

Probabilistic Cellular Automata: between deterministic Wolfram's rules 23, 77, 178 and 232

Cellular Automata and Lattice Gases 2026-05-19 v2 Dynamical Systems

Abstract

We study one dimensional binary Probabilistic Cellular Automaton (PCA) that interpolate between Wolfram's classical rules 23, 77, 178 and 232. These rules are the only ones that satisfy two criteria: (i) in the case of a majority in the neighborhood states, the central site takes either the majority state or the opposite and (ii) if the neighborhood states are tied, the central site either changes its current state or keeps it. The PCA is defined by two Bernoulli random variables with parameters p,r[0,1]p,r \in [0,1], and we analytically solve small size cases by using a Markov process formulation. We derive analytical expressions for the probability of asymptotically reaching each possible global configuration as a function of pp and rr, for all initial states. We show that for 0<p,r<10 < p,r < 1, the asymptotic probability distributions of achieving any of the states for the PCA are independent of the initial conditions. This contrasts with the behavior of the deterministic Wolfram's rules 23 (p=0,r=0p=0,r=0), 77 (p=1,r=0p=1,r=0), 178 (p=0,r=1p=0,r=1) and 232 (p=1,r=1p=1,r=1), for which additional asymptotic states can occur, in particular periodic configurations Finally, we discuss applying this kind of PCA to describe opinion dynamics involving hesitant agents.

Keywords

Cite

@article{arxiv.2603.27799,
  title  = {Probabilistic Cellular Automata: between deterministic Wolfram's rules 23, 77, 178 and 232},
  author = {Francisco J. Muñoz and Juan Carlos Nuño},
  journal= {arXiv preprint arXiv:2603.27799},
  year   = {2026}
}

Comments

12 pages, 3 figures

R2 v1 2026-07-01T11:43:03.418Z