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In combinatorics on words, a word $w$ over an alphabet $\Sigma$ is said to avoid a pattern $p$ over an alphabet $\Delta$ of variables if there is no factor $f$ of $w$ such that $f=h(p)$ where $h:\Delta^*\to\Sigma^*$ is a non-erasing…

Discrete Mathematics · Computer Science 2016-10-14 Pascal Ochem , Matthieu Rosenfeld

In combinatorics on words, a word $w$ over an alphabet $\Sigma$ is said to avoid a pattern $p$ over an alphabet $\Delta$ if there is no factor $f$ of $w$ such that $f=h(p)$ where $h:\Delta^*\to\Sigma^*$ is a non-erasing morphism. A pattern…

Discrete Mathematics · Computer Science 2015-10-08 Pascal Ochem

In combinatorics on words, a word $w$ over an alphabet $\Sigma$ is said to avoid a pattern $p$ over an alphabet $\Delta$ if there is no factor $f$ of $w$ such that $f=h(p)$ where $h:\Delta^*\to\Sigma^*$ is a non-erasing morphism. A pattern…

Combinatorics · Mathematics 2022-03-02 Antoine Domenech , Pascal Ochem

In combinatorics on words, a word $w$ over an alphabet $\Sigma$ is said to avoid a pattern $p$ over an alphabet $\Delta$ if there is no factor $f$ of $w$ such that $f= (p)$ where $h: \Delta^*\to\Sigma^*$ is a non-erasing morphism. A pattern…

Discrete Mathematics · Computer Science 2013-01-10 Pascal Ochem , Alexandre Pinlou

A word $w=w_1w_2\cdots w_n$ is alternating if either $w_1<w_2>w_3<w_4>\cdots$ (when the word is up-down) or $w_1>w_2<w_3>w_4<\cdots$ (when the word is down-up). In this paper, we initiate the study of (pattern-avoiding) alternating words.…

Combinatorics · Mathematics 2015-05-18 Emma L. L. Gao , Sergey Kitaev , Philip B. Zhang

The set of all avoidable patterns in n or fewer letters can be avoided on an alphabet with 2(n+2) letters.

Combinatorics · Mathematics 2018-01-29 Irina Melnichuk

We find generating functions for the number of words avoiding certain patterns or sets of patterns on at most 2 distinct letters and determine which of them are equally avoided. We also find the exact number of words avoiding certain…

Combinatorics · Mathematics 2007-05-23 Alexander Burstein , Toufik Mansour

We enumerate and characterize some classes of alternating and reverse alternating involutions avoiding a single pattern of length three or four. If on one hand the case of patterns of length three is trivial, on the other hand, the length…

Combinatorics · Mathematics 2022-09-20 Marilena Barnabei , Flavio Bonetti , Niccolò Castronuovo , Matteo Silimbani

A pattern is encountered in a word if some infix of the word is the image of the pattern under some non-erasing morphism. A pattern $p$ is unavoidable if, over every finite alphabet, every sufficiently long word encounters $p$. A theorem by…

Discrete Mathematics · Computer Science 2019-02-15 Arnaud Carayol , Stefan Göller

We say that a word $w$ on a totally ordered alphabet avoids the word $v$ if there are no subsequences in $w$ order-equivalent to $v$. In this paper we suggest a new approach to the enumeration of words on at most $k$ letters avoiding a…

Combinatorics · Mathematics 2007-05-23 Petter Brändén , Toufik Mansour

In combinatorics on words, a word w over an alphabet Sigma is said to avoid a pattern p over an alphabet Delta if there is no factor x of w and no non-erasing morphism h from Delta^* to Sigma^* such that h(p) = x. Bell and Goh have recently…

Combinatorics · Mathematics 2009-07-28 Narad Rampersad

The avoidability, or unavoidability of patterns in words over finite alphabets has been studied extensively. A word (pattern) over a finite set is said to be unavoidable if, for all but finitely many words, there exists a morphism mapping…

Formal Languages and Automata Theory · Computer Science 2019-07-16 Paul Sauer

We consider the following novel variation on a classical avoidance problem from combinatorics on words: instead of avoiding repetitions in all factors of a word, we avoid repetitions in all factors where each individual factor is considered…

Formal Languages and Automata Theory · Computer Science 2013-03-19 Hamoon Mousavi , Jeffrey Shallit

We construct an infinite word $w$ over the $5$-letter alphabet such that for every factor $f$ of $w$ of length at least two, there exists a cyclic permutation of $f$ that is not a factor of $w$. In other words, $w$ does not contain a…

Combinatorics · Mathematics 2018-11-21 Golnaz Badkobeh , Pascal Ochem

In this paper, we consider pattern avoidance in a subset of words on $\{1,1,2,2,\dots,n,n\}$ called reverse double lists. In particular a reverse double list is a word formed by concatenating a permutation with its reversal. We enumerate…

Combinatorics · Mathematics 2023-06-22 Monica Anderson , Marika Diepenbroek , Lara Pudwell , Alex Stoll

We investigate the avoidability of unary patterns of size of four with morphic permutations. More precisely, we show that, for the positive integers $i,j,k$, the sizes of the alphabets over which a pattern $x \pi ^ {i} (x) \pi^{j}(x)…

Combinatorics · Mathematics 2019-03-25 Kamellia Reshadi

The avoidability of binary patterns by binary cube-free words is investigated and the exact bound between unavoidable and avoidable patterns is found. All avoidable patterns are shown to be D0L-avoidable. For avoidable patterns, the growth…

Formal Languages and Automata Theory · Computer Science 2019-02-20 Robert Mercas , Pascal Ochem , Alexei V. Samsonov , Arseny M. Shur

A Cayley permutation is a word of positive integers such that if a letter appears in this word, then all positive integers smaller than that letter also appear. We initiate a systematic study of pattern avoidance on Cayley permutations…

Combinatorics · Mathematics 2024-07-30 Anders Claesson , Giulio Cerbai , Dana C. Ernst , Hannah Golab

Building an infinite square-free word by appending one letter at a time while simultaneously avoiding the creation of squares is most likely to fail. When the alphabet has two letters this approach is impossible. When the alphabet has three…

Combinatorics · Mathematics 2013-10-29 Yasmine B. Sanderson

We obtain the following results about the avoidance of ternary formulas. Up to renaming of the letters, the only infinite ternary words avoiding the formula $ABCAB.ABCBA.ACB.BAC$ (resp. $ABCA.BCAB.BCB.CBA$) have the same set of recurrent…

Discrete Mathematics · Computer Science 2018-09-26 Pascal Ochem , Matthieu Rosenfeld
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