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Related papers: Subword Complexity and k-Synchronization

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We prove that the property of being closed (resp., palindromic, rich, privileged trapezoidal, balanced) is expressible in first-order logic for automatic (and some related) sequences. It therefore follows that the characteristic function of…

Formal Languages and Automata Theory · Computer Science 2015-12-01 Luke Schaeffer , Jeffrey Shallit

We investigate questions related to the presence of primitive words and Lyndon words in automatic and linearly recurrent sequences. We show that the Lyndon factorization of a k-automatic sequence is itself k-automatic. We also show that the…

Formal Languages and Automata Theory · Computer Science 2012-11-08 Daniel Goc , Kalle Saari , Jeffrey Shallit

In this article, we prove that for a completely multiplicative function $f$ from $\mathbb{N}^*$ to a field $K$ such that the set $$\{p \;|\; f(p)\neq 1_K \;\mbox{and }p \mbox{ is prime}\}$$ is finite, the asymptotic subword complexity of…

Combinatorics · Mathematics 2016-06-01 Yining Hu

In this paper we explore a new hierarchy of classes of languages and infinite words and its connection with complexity classes. Namely, we say that a language belongs to the class $L_k$ if it is a subset of the catenation of $k$ languages…

Formal Languages and Automata Theory · Computer Science 2014-06-17 J. Cassaigne , A. E. Frid , S. Puzynina , L. Q. Zamboni

The purpose of this paper is to study subsequences of synchronizing $k$-automatic sequences $a(n)$ along Piatetski-Shapiro sequences $\lfloor n^c \rfloor$ with non-integer $c>1$. In particular, we show that $a(\lfloor n^c \rfloor)$…

Two words are $k$-binomially equivalent if each subword of length at most $k$ occurs the same number of times in both words. The $k$-binomial complexity of an infinite word is a counting function that maps $n$ to the number of $k$-binomial…

Combinatorics · Mathematics 2022-12-07 Michel Rigo , Manon Stipulanti , Markus A. Whiteland

Abelian complexity of a word $\mathbf{u}$ is a function that counts the number of pairwise non-abelian-equivalent factors of $\mathbf{u}$ of length $n$. We prove that for any $c$-balanced Parry word $\mathbf{u}$, the values of the abelian…

Combinatorics · Mathematics 2015-02-17 Ondřej Turek

We study the $k$-Bonacci word over the infinite alphabet $\mathbb{N}$. Since the alphabet is infinite, the usual factor complexity is infinite and does not provide any information. We therefore investigate factor occurrence statistics in…

Combinatorics · Mathematics 2026-04-03 Narges Ghareghani , Mehdi Golafshan , Morteza Mohammad-Noori , Pouyeh Sharifani

We show that various aspects of k-automatic sequences -- such as having an unbordered factor of length n -- are both decidable and effectively enumerable. As a consequence it follows that many related sequences are either k-automatic or…

Formal Languages and Automata Theory · Computer Science 2011-10-14 Emilie Charlier , Narad Rampersad , Jeffrey Shallit

The subword complexity of a word $w$ over a finite alphabet $\mathcal{A}$ is a function that assigns for each positive integer $n$, the number of distinct subwords of length $n$ in $w$. The subword complexity of a word is a good measure of…

Combinatorics · Mathematics 2014-09-16 Hannah Vogel

In combinatorics on words, the well-studied factor complexity function $\rho_{\infw{x}}$ of a sequence $\infw{x}$ over a finite alphabet counts, for every nonnegative integer $n$, the number of distinct length-$n$ factors of $\infw{x}$. In…

Combinatorics · Mathematics 2025-05-07 Jean-Paul Allouche , John M. Campbell , Shuo Li , Jeffrey Shallit , Manon Stipulanti

The subword complexity of a finite word $w$ of length $N$ is a function which associates to each $n\le N$ the number of all distinct subwords of $w$ having the length $n$. We define the \emph{maximal complexity} C(w) as the maximum of the…

Discrete Mathematics · Computer Science 2010-02-16 M-C. Anisiu , Z. Blazsik , Z. Kasa

We characterize the complexity functions of subshifts up to asymptotic equivalence. The complexity function of every aperiodic function is non-decreasing, submultiplicative and grows at least linearly. We prove that conversely, every…

Dynamical Systems · Mathematics 2025-09-24 Be'eri Greenfeld , Carlos Gustavo Moreira , Efim Zelmanov

Let $x$ be an $m$-sequence, a maximal length sequence produced by a linear feedback shift register. We show that $x$ has maximal subword complexity function in the sense of Allouche and Shallit. We show that this implies that the…

Formal Languages and Automata Theory · Computer Science 2020-01-31 Bjørn Kjos-Hanssen

Given a finite alphabet $\Sigma$ and a right-infinite word $\bf w$ over $\Sigma$, we define the Lie complexity function $L_{\bf w}:\mathbb{N}\to \mathbb{N}$, whose value at $n$ is the number of conjugacy classes (under cyclic shift) of…

Formal Languages and Automata Theory · Computer Science 2021-02-09 Jason P. Bell , Jeffrey Shallit

We study the palindrome complexity of infinite sequences on finite alphabets, i.e., the number of palindromic factors (blocks) of given length occurring in a given sequence. We survey the known results and obtain new results for some…

Combinatorics · Mathematics 2007-05-23 Jean-Paul Allouche , Michael Baake , Julien Cassaigne , David Damanik

We study the notion of an asymptotically automatic sequence, which generalises the notion of an automatic sequence. While $k$-automatic sequences are characterised by finiteness of $k$-kernels, the $k$-kernels of asymptotically…

Number Theory · Mathematics 2024-04-12 Jakub Konieczny

A $k$-antipower (for $k \ge 2$) is a concatenation of $k$ pairwise distinct words of the same length. The study of fragments of a word being antipowers was initiated by Fici et al. (ICALP 2016) and first algorithms for computing such…

Data Structures and Algorithms · Computer Science 2020-05-12 Tomasz Kociumaka , Jakub Radoszewski , Wojciech Rytter , Juliusz Straszyński , Tomasz Waleń , Wiktor Zuba

For a finite alphabet $\mathcal{A}$ and a sequence $x \in \mathcal{A}^{\mathbb{N}}$, Kamae and Zamboni defined the maximal pattern complexity function $p^*_x(n)$ as a natural generalization of usual word complexity. They defined a…

Dynamical Systems · Mathematics 2025-08-20 Anh N. Le , Ronnie Pavlov , Casey Schlortt

We study structure of pure morphic and morphic sequences and prove the following result: the subword complexity of arbitrary morphic sequence is either $\Theta(n^{1+1/k})$ for some $k\in\mathbb N$, or is $O(n \log n)$.

Combinatorics · Mathematics 2015-02-23 Rostislav Devyatov
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