International audienceA non-empty word w of {a; b}* is a Lyndon word if and only if it is strictly smaller for the lexicographical order than any of its proper suffixes. Such a word w is either a letter or admits a standard factorization uv where v is its smallest proper suÆx. For any Lyndon word v, we show that the set of Lyndon words having v as right factor of the standard factorization is rational and compute explicitly the associated generating function. Next we establish that, for the uniform distribution over the Lyndon words of length n, the average length of the right factor v of the standard factorization is asymptotically 3n/4. Finally we present algorithms on Lyndon words derived from our work together with experimental results
Motivated by applications to string processing, we introduce variants of the Lyndon factorization ca...
We revisit the problem of computing the Lyndon factorization of a string w of length N which is give...
A non-empty string x over an ordered alphabet is said to be a Lyndon word if it is alphabetically sm...
International audienceA non-empty word w is a Lyndon word if and only if it is strictly smaller for ...
International audienceA non-empty word w of {a; b}* is a Lyndon word if and only if it is strictly s...
AbstractA non-empty word w is a Lyndon word if and only if it is strictly smaller for the lexicograp...
International audienceGiven a totally ordered alphabet A = {a1 < a2 < < aq}, a Lyndon word is a word...
AbstractThe average cost of Duval's algorithm for generating all Lyndon words up to a given length i...
Consider the set of finite words on a totally ordered alphabet with $q$ letters. We prove that the d...
In this paper, we determine the maximum number of distinct Lyndon factors that a word of length n ca...
AbstractA primitive word w is a Lyndon word if w is minimal among all its conjugates with respect to...
CombinatoricsInternational audienceIn a recent paper, Brlek, Jamet and Paquin showed that some extre...
The Lyndon factorization of a word has been largely studied and recently variants of it have been in...
We extend the left-to-right Lyndon factorisation of a word to the left Lyn-don tree construction ...
AbstractWe express any general characteristic sturmian word as a unique infinite non-increasing prod...
Motivated by applications to string processing, we introduce variants of the Lyndon factorization ca...
We revisit the problem of computing the Lyndon factorization of a string w of length N which is give...
A non-empty string x over an ordered alphabet is said to be a Lyndon word if it is alphabetically sm...
International audienceA non-empty word w is a Lyndon word if and only if it is strictly smaller for ...
International audienceA non-empty word w of {a; b}* is a Lyndon word if and only if it is strictly s...
AbstractA non-empty word w is a Lyndon word if and only if it is strictly smaller for the lexicograp...
International audienceGiven a totally ordered alphabet A = {a1 < a2 < < aq}, a Lyndon word is a word...
AbstractThe average cost of Duval's algorithm for generating all Lyndon words up to a given length i...
Consider the set of finite words on a totally ordered alphabet with $q$ letters. We prove that the d...
In this paper, we determine the maximum number of distinct Lyndon factors that a word of length n ca...
AbstractA primitive word w is a Lyndon word if w is minimal among all its conjugates with respect to...
CombinatoricsInternational audienceIn a recent paper, Brlek, Jamet and Paquin showed that some extre...
The Lyndon factorization of a word has been largely studied and recently variants of it have been in...
We extend the left-to-right Lyndon factorisation of a word to the left Lyn-don tree construction ...
AbstractWe express any general characteristic sturmian word as a unique infinite non-increasing prod...
Motivated by applications to string processing, we introduce variants of the Lyndon factorization ca...
We revisit the problem of computing the Lyndon factorization of a string w of length N which is give...
A non-empty string x over an ordered alphabet is said to be a Lyndon word if it is alphabetically sm...