Cobham's theorem

Not to be confused with Cobham's thesis.

Cobham's theorem is a theorem in combinatorics on words that has important connections with number theory, notably transcendental numbers, and automata theory. Informally, the theorem gives the condition for the members of a set S of natural numbers written in bases b1 and base b2 to be recognised by finite automata. Specifically, consider bases b1 and b2 such that they are not powers of the same integer. Cobham's theorem states that S written in bases b1 and b2 is recognised by finite automata if and only if S differs by a finite set from a finite union of arithmetic progressions. The theorem was proved by Alan Cobham in 1969[1] and has since given rise to many extensions and generalisations.[2][3]

  1. ^ Cobham, Alan (1969). "On the base-dependence of sets of numbers recognizable by finite automata". Mathematical Systems Theory. 3 (2): 186–192. doi:10.1007/BF01746527. MR 0250789.
  2. ^ Durand, Fabien; Rigo, Michel (2010) [Chapter originally written 2010]. "On Cobham's Theorem" (PDF). In Pin, J.-É. (ed.). Automata: from Mathematics to Applications. European Mathematical Society.
  3. ^ Adamczewski, Boris; Bell, Jason (2010) [Chapter originally written 2010]. "Automata in number theory" (PDF). In Pin, J.-É. (ed.). Automata: from Mathematics to Applications. European Mathematical Society.