arXiv:1411.1463 Abstract | arXiv Analytics

arXiv:1411.1463 [math.PR]Abstract References Reviews Resources

One-dependent coloring by finitary factors

Published 2014-11-06Version 1

Holroyd and Liggett recently proved the existence of a stationary 1-dependent 4-coloring of the integers, the first stationary k-dependent q-coloring for any k and q. That proof specifies a consistent family of finite-dimensional distributions, but does not yield a probabilistic construction on the whole integer line. Here we prove that the process can be expressed as a finitary factor of an i.i.d. process. The factor is described explicitly, and its coding radius obeys power-law tail bounds.

Categories: math.PR, math.CO

Subjects: 60G10, 05C15, 60C05

Keywords: finitary factor, one-dependent coloring, radius obeys power-law tail bounds, coding radius obeys power-law tail, first stationary k-dependent

Related articles: Most relevant | Search more

arXiv:1412.2725 [math.PR] (Published 2014-12-08)

Finitary Coloring

Alexander E. Holroyd, Oded Schramm, David B. Wilson

arXiv:1908.06240 [math.PR] (Published 2019-08-17)

Markov chains with exponential return times are finitary

Omer Angel, Yinon Spinka

arXiv:1901.00123 [math.PR] (Published 2019-01-01)

Finitely-dependent processes are finitary

Yinon Spinka

arXiv Analytics

arXiv:1411.1463 [math.PR]Abstract References Reviews Resources

One-dependent coloring by finitary factors

Links

Toolbox

arXiv:1411.1463 [math.PR]AbstractReferencesReviewsResources

One-dependent coloring by finitary factors

Links

Toolbox

arXiv:1411.1463 [math.PR]Abstract References Reviews Resources