An Upper Bound on the Number of (132,213)-Avoiding Cyclic Permutations
Abstract
We show a n2 · 2n/2 upper bound on the number of (132,213) avoiding cyclic permutations. This is the first nontrivial upper bound on the number of such permutations. We also construct an algorithm to determine whether a (132,213) avoiding permutation is cyclic that references only the permutation's layer lengths.
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