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Related papers: Pattern avoidance and the fundamental bijection

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Let S_n be the nth symmetric group. Given a set of permutations Pi we denote by S_n(Pi) the set of permutations in S_n which avoid Pi in the sense of pattern avoidance. Consider the generating function Q_n(Pi) = sum_pi F_{Des pi} where the…

Combinatorics · Mathematics 2018-12-31 Jonathan Bloom , Bruce Sagan

We present a simple bijection between Baxter permutations of size $n$ and plane bipolar orientations with n edges. This bijection translates several classical parameters of permutations (number of ascents, right-to-left maxima,…

Combinatorics · Mathematics 2014-03-19 Nicolas Bonichon , Mireille Bousquet-Mélou , Eric Fusy

We prove that the number of permutations which avoid 132-patterns and have exactly one 123-pattern equals (n-2)2^(n-3). We then give a bijection onto the set of permutations which avoid 123-patterns and have exactly one 132-pattern.…

Combinatorics · Mathematics 2007-05-23 Aaron Robertson

We show that cyclic permutations avoiding $321$ are precisely those permutations whose image under the fundamental bijection avoid a set of vincular patterns. We do this by using pattern functions and arrow patterns, in combination with the…

Combinatorics · Mathematics 2025-05-12 Robert P. Laudone

In this paper we study pattern avoidance for affine permutations. In particular, we show that for a given pattern p, there are only finitely many affine permutations in $\widetilde{S}_n$ that avoid p if and only if p avoids the pattern 321.…

Combinatorics · Mathematics 2010-11-15 Andrew Crites

An alternating permutation of length $n$ is a permutation $\pi=\pi_1 \pi_2 ... \pi_n$ such that $\pi_1 < \pi_2 > \pi_3 < \pi_4 > ...$. Let $A_n$ denote set of alternating permutations of ${1,2,..., n}$, and let $A_n(\sigma)$ be set of…

Combinatorics · Mathematics 2012-12-13 Joanna N. Chen , William Y. C. Chen , Robin D. P. Zhou

West's stack-sorting map involves a stack which avoids the permutation $21$ consecutively. Defant and Zheng extended this to a consecutive-pattern-avoiding stack-sorting map $SC_\sigma$, where the stack must always avoid a given permutation…

Combinatorics · Mathematics 2023-08-14 Ilaria Seidel , Nathan Sun

We investigate the notion of almost avoiding a permutation: $\pi$ almost avoids $\beta$ if one can remove a single entry from $\pi$ to obtain a $\beta$-avoiding permutation.

Combinatorics · Mathematics 2020-07-31 Robert Brignall , Shalosh B. Ekhad , Rebecca Smith , Vince Vatter

Nonnesting permutations are permutations of the multiset $\{1,1,2,2,\dots,n,n\}$ that avoid subsequences of the form $abba$ for any $a\neq b$. These permutations have recently been studied in connection to noncrossing (also called…

Combinatorics · Mathematics 2026-01-21 Sergi Elizalde , Amya Luo

In this paper, we find explicit formulas or generating functions for the cardinalities of the sets $S_n(T,\tau)$ of all permutations in $S_n$ that avoid a pattern $\tau\in S_k$ and a set $T$, $|T|\geq 2$, of patterns from $S_3$. The main…

Combinatorics · Mathematics 2007-05-23 T. Mansour

Let $F \subset S_k$ be a finite set of permutations and let $C_n(F)$ denote the number of permutations $\sigma$ in $S_n$ avoiding the set of patterns $F$. The Noonan-Zeilberger conjecture states that the sequence ${C_n(F)}$ is P-recursive.…

Combinatorics · Mathematics 2015-05-26 Scott Garrabrant , Igor Pak

Let $\sigma$ and $\tau$ be patterns of length three; that is $\sigma, \tau \in \{123,132,213,231,312,321\}$. In this paper, we enumerate the set of cyclic permutations in $\mathcal{S}_n$ that avoid $\sigma$ in their one-line notation and…

Combinatorics · Mathematics 2024-09-04 Kassie Archer , Ethan Borsh , Jensen Bridges , Christina Graves , Millie Jeske

We introduce the stack-sorting map $\text{SC}_\sigma$ that sorts, in a right-greedy manner, an input permutation through a stack that avoids some vincular pattern $\sigma$. The stack-sorting maps of Cerbai et al. in which the stack avoids a…

Combinatorics · Mathematics 2024-10-23 William Zhao

We give some results about a bijection associating each permutation with a subexcedant function. This function is related to a particular decomposition of the permutation as a product of transpositions and therefore it has been called…

Combinatorics · Mathematics 2022-08-17 Fufa Beyene , Roberto Mantaci

For $\eta\in S_3$, let $S_n^{\text{av}(\eta)}$ denote the set of permutations in $S_n$ that avoid the pattern $\eta$, and let $E_n^{\text{av}(\eta)}$ denote the expectation with respect to the uniform probability measure on…

Probability · Mathematics 2023-04-28 Ross G. Pinsky

We consider the problem of bounding the number of permutations $\sigma\in S_n$ that avoid a fixed permutation $\pi\in S_k$ in specific indices given by a $k$-uniform hypergraph $\Lambda$. We obtain relatively sharp bounds in the case where…

Combinatorics · Mathematics 2021-08-02 Maxwell Fishelson , Benjamin Gunby

Motivated by the concept of partial words, we introduce an analogous concept of partial permutations. A partial permutation of length n with k holes is a sequence of symbols $\pi = \pi_1\pi_2 ... \pi_n$ in which each of the symbols from the…

Combinatorics · Mathematics 2015-03-17 Anders Claesson , Vit Jelinek , Eva Jelinkova , Sergey Kitaev

A permutation $\sigma\in\mathfrak{S}_n$ is simsun if for all $k$, the subword of $\sigma$ restricted to $\{1,...,k\}$ does not have three consecutive decreasing elements. The permutation $\sigma$ is double simsun if both $\sigma$ and…

Combinatorics · Mathematics 2010-04-23 Wan-Chen Chuang , Sen-Peng Eu , Tung-Shan Fu , Yeh-Jong Pan

We consider a random permutation drawn from the set of 321-avoiding permutations of length $n$ and show that the number of occurrences of another pattern $\sigma$ has a limit distribution, after scaling by $n^{m+\ell}$ where $m$ is the…

Probability · Mathematics 2017-12-22 Svante Janson

Let I_n(\pi) denote the number of involutions in the symmetric group S_n which avoid the permutation \pi. We say that two permutations \alpha,\beta\in\S{j} may be exchanged if for every n, k, and ordering \tau of j+1,...,k, we have…

Combinatorics · Mathematics 2007-05-23 Aaron D. Jaggard