On (Shape-)Wilf-Equivalence of Certain Sets of (Partially Ordered) Patterns
Copyright policy )On (Shape-)Wilf-Equivalence of Certain Sets of (Partially Ordered) Patterns
We prove a conjecture of Gao and Kitaev on Wilf-equivalence of sets of patterns $\{12345,12354\}$ and $\{45123,45213\}$ that extends the list of 10 related conjectures proved in the literature in a series of papers. To achieve our goals, we prove generalized versions of shape-Wilf-equivalence results of Backelin, West, and Xin and use a particular result on shape-Wilf-equivalence of monotone patterns. We also derive general results on shape-Wilf-equivalence of certain classes of partially ordered patterns and use their specialization (also appearing in a paper by Bloom and Elizalde) as an essential piece in proving the conjecture. Our results allow us to show (shape-)Wilf-equivalence of large classes of sets of patterns, including 11 out of 12 classes found by Bean et al. in relation to the conjecture.
- UNIVERSITY OF STRATHCLYDE
- University of Strathclyde
- University of Strathclyde United Kingdom
- Howard University United States
- University of Strathclyde
Permutations, words, matrices, Wilf-equivalence, partially ordered pattern, Exact enumeration problems, generating functions, 05A05 (Primary) 05A15, 05A19 (Secondary), 510, 004, shape-Wilf-equivalence, Electronic computers. Computer science, FOS: Mathematics, Mathematics - Combinatorics, Combinatorics (math.CO), permutation pattern, Combinatorial identities, bijective combinatorics
Permutations, words, matrices, Wilf-equivalence, partially ordered pattern, Exact enumeration problems, generating functions, 05A05 (Primary) 05A15, 05A19 (Secondary), 510, 004, shape-Wilf-equivalence, Electronic computers. Computer science, FOS: Mathematics, Mathematics - Combinatorics, Combinatorics (math.CO), permutation pattern, Combinatorial identities, bijective combinatorics
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