کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
4647743 | 1342371 | 2013 | 4 صفحه PDF | دانلود رایگان |
A transformation monoid on a set ΩΩ is called synchronizing if it contains an element of rank 11 (that is, mapping the whole of ΩΩ to a single point). In this paper, I tackle the question: given nn and kk, what is the probability that the submonoid of the full transformation monoid TnTn generated by kk random transformations is synchronizing?Synchronization is motivated by automata theory, where a deterministic automaton is synchronizing if some sequence of transitions leads to the same point from any starting point. This is equivalent to requiring that the monoid generated by the transitions is synchronizing in the above sense.The question has some similarities with a similar question about the probability that the subgroup of SnSn generated by kk random permutations is transitive. For k=1k=1, the answer is 1/n1/n; for k=2k=2, Dixon’s Theorem asserts that it is 1−o(1)1−o(1) as n→∞n→∞ (and good estimates are now known). For our synchronization question, for k=1k=1 the answer is also 1/n1/n; I conjecture that for k=2k=2 it is also 1−o(1)1−o(1).Following the technique of Dixon’s theorem, we need to analyse the maximal non-synchronizing submonoids of TnTn. I develop a very close connection between transformation monoids and graphs, from which we obtain a description of non-synchronizing monoids as endomorphism monoids of graphs satisfying some very strong conditions. However, counting such graphs, and dealing with the intersections of their endomorphism monoids, seems difficult.
Journal: Discrete Mathematics - Volume 313, Issue 11, 6 June 2013, Pages 1233–1236