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Related papers: Matchings Avoiding Partial Patterns

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In this note we count linear arrangements that avoid certain patterns and show their connection to the derangement numbers. We discuss the sequence Dn, which counts linear arrangements that avoid patterns 12, 23, ..., (n-1)n, n1, and show…

Combinatorics · Mathematics 2016-10-07 Enrique Navarrete

We investigate pattern-avoiding (0,1)-matrices as generalizations of pattern-avoiding permutations. Our emphasis is on 123-avoiding and 321-avoiding patterns for which we obtain exact results as to the maximum number of 1's such matrices…

Combinatorics · Mathematics 2020-05-06 Richard A. Brualdi , Lei Cao

We define a variation of Stirling permutations, called quasi-Stirling permutations, to be permutations on the multiset $\{1,1,2,2,\ldots, n,n\}$ that avoid the patterns 1212 and 2121. Their study is motivated by a known relationship between…

Combinatorics · Mathematics 2018-04-20 Kassie Archer , Adam Gregory , Bryan Pennington , Stephanie Slayden

We investigate various connections between the 0-Hecke monoid, Catalan monoid, and pattern avoidance in permutations, providing new tools for approaching pattern avoidance in an algebraic framework. In particular, we characterize…

Combinatorics · Mathematics 2013-08-06 Tom Denton

In this paper, we study pattern avoidances of generalized permutations and show that the number of all generalized permutations avoiding $\pi$ is independent of the choice of $\pi\in S_3$, which extends the classic results on permutations…

Combinatorics · Mathematics 2018-05-15 Zhousheng Mei , Suijie Wang

The existence of apparently coincidental equalities (also called Wilf-equivalences) between the enumeration sequences, or generating functions, of various hereditary classes of combinatorial structures has attracted significant interest. We…

Combinatorics · Mathematics 2014-08-01 Michael Albert , Mathilde Bouvel

We prove that the set of patterns {1324,3416725} is Wilf-equivalent to the pattern 1234 and that the set of patterns {2143,3142,246135} is Wilf-equivalent to the set of patterns {2413,3142}. These are the first known unbalanced…

Combinatorics · Mathematics 2014-10-01 Alexander Burstein , Jay Pantone

We consider the distribution of ascents, descents, peaks, valleys, double ascents, and double descents over permutations avoiding a set of patterns. Many of these statistics have already been studied over sets of permutations avoiding a…

Combinatorics · Mathematics 2019-07-24 Michael Bukata , Ryan Kulwicki , Nicholas Lewandowski , Lara Pudwell , Jacob Roth , Teresa Wheeland

In this paper, we study pattern avoidance in weak ascent sequences, giving some results for patterns of length 3. This is an analogous study to one given by Duncan and Steingr\'imsson (2011) for ascent sequences. More precisely, we provide…

Combinatorics · Mathematics 2024-09-04 Beáta Bényi , Toufik Mansour , José L. Ramírez

Descending plane partitions, alternating sign matrices, and totally symmetric self-complementary plane partitions are equinumerous combinatorial sets for which no explicit bijection is known. In this paper, we isolate a subset of descending…

Combinatorics · Mathematics 2017-04-20 Colton Keller , Jessica Striker

Circular permutations on {1,2,...,n} that avoid a given pattern correspond to ordinary (linear) permutations that end with n and avoid all cyclic rotations of the pattern. Three letter patterns are all but unavoidable in circular…

Combinatorics · Mathematics 2007-05-23 David Callan

Dyck paths having height at most $h$ and without valleys at height $h-1$ are combinatorially interpreted by means of 312-avoding permutations with some restrictions on their \emph{left-to-right maxima}. The results are obtained by analyzing…

Combinatorics · Mathematics 2023-07-07 Elena Barcucci , Antonio Bernini , Stefano Bilotta , Renzo Pinzani

A non-crossing pairing on a bitstring matches 1s and 0s in a manner such that the pairing diagram is nonintersecting. By considering such pairings on arbitrary bitstrings $1^{n_1} 0^{m_1} ... 1^{n_r} 0^{m_r}$, we generalize classical…

Combinatorics · Mathematics 2009-06-17 Todd Kemp , Karl Mahlburg , Amarpreet Rattan , Clifford Smyth

We study the problem of counting alternating permutations avoiding collections of permutation patterns including 132. We construct a bijection between the set S_n(132) of 132-avoiding permutations and the set A_{2n + 1}(132) of alternating,…

Combinatorics · Mathematics 2021-03-30 Joel Brewster Lewis

A matching of the set $[2n]=\{ 1,2,\ldots ,2n\}$ is a partition of $[2n]$ into blocks with two elements, i.e. a graph on $[2n]$ such that every vertex has degree one. Given two matchings $\sigma$ and $\tau$ , we say that $\sigma$ is a…

Combinatorics · Mathematics 2020-09-03 Matteo Cervetti , Luca Ferrari

In this thesis, we introduced and carried out a combinatorial study of permutations that avoid one or two patterns of length 3 according to the statistic number of crossings. For this purpose, we manipulated a bijection of Elizalde and Pak…

Combinatorics · Mathematics 2022-09-21 Paul Mazoto Rakotomamonjy

In 2012 B\'ona showed the rather surprising fact that the cumulative number of occurrences of the classical patterns $231$ and $213$ are the same on the set of permutations avoiding $132$, beside the pattern based statistics $231$ and $213$…

Combinatorics · Mathematics 2014-12-12 Vincent Vajnovszki

We consider a random permutation drawn from the set of permutations of length $n$ that avoid some given set of patterns of length 3. We show that the number of occurrences of another pattern $\sigma$ has a limit distribution, after suitable…

Probability · Mathematics 2018-04-18 Svante Janson

The number of even 321-avoiding permutations of length n is equal to the number of odd ones if n is even, and exceeds it by the (n-1)/2th Catalan number otherwise. We present an involution that proves a refinement of this sign-balance…

Combinatorics · Mathematics 2007-05-23 Astrid Reifegerste

This short paper is concerned with the enumeration of permutations avoiding the following four patterns: $2431$, $4231$, $1432$ and $4132$. Using a bijective construction, we prove that these permutations are counted by the central binomial…

Combinatorics · Mathematics 2015-06-01 Marie-Louise Bruner