The Lyndon factorization of a word has been largely studied and recently variants of it have been introduced and investigated with different motivations. In particular, the canonical inverse Lyndon factorization ICFL(w) of a word w, previously introduced, maintains the main properties of the Lyndon factorization since it can be computed in linear time and it is uniquely determined. In this paper we investigate new properties of this factorization with the aim of exploring their use in some classical queries on w. The main property we prove is related to a classical query on words. We prove that there are relations between the length of the longest common prefix (or longest common extension) lcp(x,y) of two different suffixes x,y of a wor...
In this paper we are interested in the study of the combinatorial aspects connecting three importan...
We extend the left-to-right Lyndon factorisation of a word to the left Lyn-don tree construction ...
International audienceGiven a totally ordered alphabet A = {a1 < a2 < < aq}, a Lyndon word is a word...
The Lyndon factorization of a word has been largely studied and recently variants of it have been in...
Motivated by applications to string processing, we introduce variants of the Lyndon factorization ca...
International audienceA non-empty word w of {a; b}* is a Lyndon word if and only if it is strictly s...
The process of sorting the suffixes of a text plays a fundamental role in Text Algorithms. They are ...
Abstract. The process of sorting the suffixes of a text plays a fundamental role in Text Algorithms....
In this paper, we determine the maximum number of distinct Lyndon factors that a word of length n ca...
International audienceA non-empty word w is a Lyndon word if and only if it is strictly smaller for ...
AbstractA non-empty word w is a Lyndon word if and only if it is strictly smaller for the lexicograp...
In this paper we are interested in the study of the combinatorial aspects connecting three important...
AbstractA primitive word w is a Lyndon word if w is minimal among all its conjugates with respect to...
We extend the left-to-right Lyndon factorisation of a word to the left Lyndon tree construction of a...
The main goal of this paper is to highlight the relationship between the suffix array of a text and ...
In this paper we are interested in the study of the combinatorial aspects connecting three importan...
We extend the left-to-right Lyndon factorisation of a word to the left Lyn-don tree construction ...
International audienceGiven a totally ordered alphabet A = {a1 < a2 < < aq}, a Lyndon word is a word...
The Lyndon factorization of a word has been largely studied and recently variants of it have been in...
Motivated by applications to string processing, we introduce variants of the Lyndon factorization ca...
International audienceA non-empty word w of {a; b}* is a Lyndon word if and only if it is strictly s...
The process of sorting the suffixes of a text plays a fundamental role in Text Algorithms. They are ...
Abstract. The process of sorting the suffixes of a text plays a fundamental role in Text Algorithms....
In this paper, we determine the maximum number of distinct Lyndon factors that a word of length n ca...
International audienceA non-empty word w is a Lyndon word if and only if it is strictly smaller for ...
AbstractA non-empty word w is a Lyndon word if and only if it is strictly smaller for the lexicograp...
In this paper we are interested in the study of the combinatorial aspects connecting three important...
AbstractA primitive word w is a Lyndon word if w is minimal among all its conjugates with respect to...
We extend the left-to-right Lyndon factorisation of a word to the left Lyndon tree construction of a...
The main goal of this paper is to highlight the relationship between the suffix array of a text and ...
In this paper we are interested in the study of the combinatorial aspects connecting three importan...
We extend the left-to-right Lyndon factorisation of a word to the left Lyn-don tree construction ...
International audienceGiven a totally ordered alphabet A = {a1 < a2 < < aq}, a Lyndon word is a word...