## DI-UMONS : Dépôt institutionnel de l’université de Mons  Recherche transversale Rechercher (titres de publication, de périodique et noms de colloque inclus)
2010-02-01 - Article/Dans un journal avec peer-review - Anglais - 17 page(s)

Boigelot Bernard, Brusten Julien, Bruyère Véronique , "On the Sets of Real Numbers Recognized by Finite Automata in Multiple Bases" in Logical Methods in Computer Science, 6, 17 pages

• Edition : Technischen Universitat Braunschweig, Braunschweig (Germany)
• Codes CREF : Théorie des graphes (DI1146), Informatique mathématique (DI1160)
• Unités de recherche UMONS : Informatique théorique (S829)
Texte intégral :

Abstract(s) :

(Anglais) This paper studies the expressive power of finite automata recognizing sets of real numbers encoded in positional notation. We consider Muller automata as well as the restricted class of weak deterministic automata, used as symbolic set representations in actual applications. In previous work, it has been established that the sets of numbers that are recognizable by weak deterministic automata in two bases that do not share the same set of prime factors are exactly those that are definable in the first order additive theory of real and integer numbers (R, Z, +, <). This result extends Cobham's theorem, which characterizes the sets of integer numbers that are recognizable by finite automata in multiple bases. In this paper, we first generalize this result to multiplicatively independent bases, which brings it closer to the original statement of Cobham's theorem. Then, we study the sets of reals recognizable by Muller automata in two bases. We show with a counterexample that, in this setting, Cobham's theorem does not generalize to multiplicatively independent bases. Finally, we prove that the sets of reals that are recognizable by Muller automata in two bases that do not share the same set of prime factors are exactly those definable in (R, Z, +, <). These sets are thus also recognizable by weak deterministic automata. This result leads to a precise characterization of the sets of real numbers that are recognizable in multiple bases, and provides a theoretical justification to the use of weak automata as symbolic representations of sets.

Notes :
• (Anglais) arXiv:1001.2508
Identifiants :
• DOI : 10.1007/978-3-540-70583-3_10