Add to ORKGInternational audienceThe aim of this paper is to design the polynomial construction of a finite recognizer for hairpin completions of regular languages. This is achieved by considering completions as new expression operators and by applying derivation techniques to the associated extended expressions called hairpin expressions. More precisely, we extend partial derivation of regular expressions to two-sided partial derivation of hairpin expressions and we show how to deduce a recognizer for a hairpin expression from its two-sided derived term automaton, providing an alternative proof of the fact that hairpin completions of regular languages are linear context-free
Derivatives of regular expressions were first introduced by Brzozowski in [1]. By recursively comput...
AbstractThis work deals with questions regarding to what extent regularity-preserving language opera...
International audienceThe aim of this paper is to design a theoretical framework that allows us to p...
AbstractHairpin completion is an operation on formal languages that has been inspired by hairpin for...
AbstractThe main theorem allows an elegant algorithm to be refined into an efficient one. The elegan...
International audienceTransducers constitute a fundamental extension of automata. The class of regul...
International audienceTransducers constitute a fundamental extension of automata. The class of regul...
International audienceTransducers constitute a fundamental extension of automata. The class of regul...
AbstractHairpin completion is an operation on formal languages that has been inspired by hairpin for...
The use of derivatives for efficiently deciding equivalence and membership in regular languages has ...
This paper presents a new polynomial-time algorithm for the inclusion problem for certain pairs of r...
Derivatives of regular expressions are an operation which for a given expression produces an express...
Derivatives of regular expressions were first introduced by Brzozowski in [1]. By recursively comput...
Derivatives of regular expressions are an operation which for a given expression produces an express...
Derivatives of regular expressions were first introduced by Brzozowski in [1]. By recursively comput...
Derivatives of regular expressions were first introduced by Brzozowski in [1]. By recursively comput...
AbstractThis work deals with questions regarding to what extent regularity-preserving language opera...
International audienceThe aim of this paper is to design a theoretical framework that allows us to p...
AbstractHairpin completion is an operation on formal languages that has been inspired by hairpin for...
AbstractThe main theorem allows an elegant algorithm to be refined into an efficient one. The elegan...
International audienceTransducers constitute a fundamental extension of automata. The class of regul...
International audienceTransducers constitute a fundamental extension of automata. The class of regul...
International audienceTransducers constitute a fundamental extension of automata. The class of regul...
AbstractHairpin completion is an operation on formal languages that has been inspired by hairpin for...
The use of derivatives for efficiently deciding equivalence and membership in regular languages has ...
This paper presents a new polynomial-time algorithm for the inclusion problem for certain pairs of r...
Derivatives of regular expressions are an operation which for a given expression produces an express...
Derivatives of regular expressions were first introduced by Brzozowski in [1]. By recursively comput...
Derivatives of regular expressions are an operation which for a given expression produces an express...
Derivatives of regular expressions were first introduced by Brzozowski in [1]. By recursively comput...
Derivatives of regular expressions were first introduced by Brzozowski in [1]. By recursively comput...
AbstractThis work deals with questions regarding to what extent regularity-preserving language opera...
International audienceThe aim of this paper is to design a theoretical framework that allows us to p...