Between primitive and $2$-transitive: Synchronization and its friends
Abstract
An automaton is said to be synchronizing if there is a word in the transitions which sends all states of the automaton to a single state. Research on this topic has been driven by the \v{C}ern\'y conjecture, one of the oldest and most famous problems in automata theory, according to which a synchronizing -state automaton has a reset word of length at most . The transitions of an automaton generate a transformation monoid on the set of states, and so an automaton can be regarded as a transformation monoid with a prescribed set of generators. In this setting, an automaton is synchronizing if the transitions generate a constant map. A permutation group on a set is said to synchronize a map if the monoid generated by and is synchronizing in the above sense; we say is synchronizing if it synchronizes every non-permutation. The classes of synchronizing groups and friends form an hierarchy of natural and elegant classes of groups lying strictly between the classes of primitive and -homogeneous groups. These classes have been floating around for some years and it is now time to provide a unified reference on them. The study of all these classes has been prompted by the \v{C}ern\'y conjecture, but it is of independent interest since it involves a rich mix of group theory, combinatorics, graph endomorphisms, semigroup theory, finite geometry, and representation theory, and has interesting computational aspects as well. So as to make the paper self-contained, we have provided background material on these topics. Our purpose here is to present results that show the connections between the various areas of mathematics mentioned above, we include a new result on the \v{C}ern\'y conjecture, some challenges to finite geometers, some thoughts about infinite analogues, and a long list of open problems.
Cite
@article{arxiv.1511.03184,
title = {Between primitive and $2$-transitive: Synchronization and its friends},
author = {João Araújo and Peter J. Cameron and Benjamin Steinberg},
journal= {arXiv preprint arXiv:1511.03184},
year = {2019}
}