AbstractGiven a language L and a non-deterministic finite automaton M, we consider whether we can determine efficiently (in the size of M) if M accepts at least one word in L, or infinitely many words. Given that M accepts at least one word in L, we consider how long a shortest word can be. The languages L that we examine include the palindromes, the non-palindromes, the k-powers, the non-k-powers, the powers, the non-powers (also called primitive words), the words matching a general pattern, the bordered words, and the unbordered words
AbstractWe study the palindrome complexity of infinite sequences on finite alphabets, i.e., the numb...
A word ω is said to contain the pattern P if there is a way to substitute a nonempty word for each l...
Unambiguous non-deterministic finite automata (UFA) are non-deterministic automata (over finite word...
AbstractGiven a language L and a non-deterministic finite automaton M, we consider whether we can de...
AbstractThe palindrome complexity function palw of a word w attaches to each n∈N the number of palin...
AbstractWe address the following issue: given a word w∈A* and a set of n nonempty words X, how does ...
AbstractA sweeping automaton is a deterministic two-way finite automaton which only changes head dir...
The language P_n (P?_n, respectively) consists of all words that are palindromes of length 2n (2n-1,...
If L is a language, the automaticity function AL(n) (resp. NL(n)) of L counts the number of states o...
A regular language L of finite words is composite if there are regular languages L₁,L₂,…,L_t such th...
AbstractWe study the problem of finding, in a given word, all maximal gapped palindromes verifying t...
We present a method which displays all palindromes of a given length from De Bruijn words of a certa...
International audienceIn 1999 Lyngsø and Pedersen proposed a conjecture stating that every binary ci...
Given a finite word u, we define its palindromic length |u|pal to be the least number n such that u ...
Palindromic length of a string is the minimum number of palindromes whose concatenation is equal to ...
AbstractWe study the palindrome complexity of infinite sequences on finite alphabets, i.e., the numb...
A word ω is said to contain the pattern P if there is a way to substitute a nonempty word for each l...
Unambiguous non-deterministic finite automata (UFA) are non-deterministic automata (over finite word...
AbstractGiven a language L and a non-deterministic finite automaton M, we consider whether we can de...
AbstractThe palindrome complexity function palw of a word w attaches to each n∈N the number of palin...
AbstractWe address the following issue: given a word w∈A* and a set of n nonempty words X, how does ...
AbstractA sweeping automaton is a deterministic two-way finite automaton which only changes head dir...
The language P_n (P?_n, respectively) consists of all words that are palindromes of length 2n (2n-1,...
If L is a language, the automaticity function AL(n) (resp. NL(n)) of L counts the number of states o...
A regular language L of finite words is composite if there are regular languages L₁,L₂,…,L_t such th...
AbstractWe study the problem of finding, in a given word, all maximal gapped palindromes verifying t...
We present a method which displays all palindromes of a given length from De Bruijn words of a certa...
International audienceIn 1999 Lyngsø and Pedersen proposed a conjecture stating that every binary ci...
Given a finite word u, we define its palindromic length |u|pal to be the least number n such that u ...
Palindromic length of a string is the minimum number of palindromes whose concatenation is equal to ...
AbstractWe study the palindrome complexity of infinite sequences on finite alphabets, i.e., the numb...
A word ω is said to contain the pattern P if there is a way to substitute a nonempty word for each l...
Unambiguous non-deterministic finite automata (UFA) are non-deterministic automata (over finite word...