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Recursively enumerable set - Wikipedia, the free encyclopedia

Recursively enumerable set

From Wikipedia, the free encyclopedia

In computability theory, traditionally called recursion theory, a set S of natural numbers is called recursively enumerable, computably enumerable, semidecidable or provable if:

  • There is an algorithm that, when given an input number, eventually halts if and only if the input is an element of S.

Or, equivalently,

  • There is an algorithm that "enumerates" the members of S. That means that its output is simply a list of the members of S: s1, s2, s3, ... . If necessary, this algorithm may run forever.

The first condition suggests why the term semidecidable is sometimes used; the second suggests why computably enumerable is used. The abbreviations r.e. and c.e. are often used, even in print, instead of the full phrase.

In computational complexity theory, the complexity class containing all recursively enumerable sets is RE. In recursion theory, the lattice of r.e. sets under inclusion is denoted \mathcal{E}.


Contents

[edit] Formal definition

A set S of natural numbers is called recursively enumerable if there is a partial recursive (i.e. computable) function whose domain (co-range) is exactly S, meaning that the function is defined if and only if its input is a member of S.

The definition can be extended to an arbitrary countable set A by using Gödel numbers to represent elements of the set and declaring a subset of A to be recursively enumerable if the set of corresponding Gödel numbers is recursively enumerable.

[edit] Equivalent formulations

The following are all equivalent properties of a set S of natural numbers:

Semidecidability:
  • The set S is recursively enumerable. That is, S is the domain (co-range) of a partial recursive function.
  • There is a partial recursive function f such that:
f(x) =  \left\{\begin{matrix}  0 &\mbox{if}\ x \in S \\ \mbox{undefined/does not halt}\ &\mbox{if}\ x \notin S \end{matrix}\right.
Enumerability:
  • The set S is the range of a partial recursive function.
  • The set S is the range of a total recursive function or empty. If S is infinite, the function can be chosen to be injective.
  • The set S is the range of a primitive recursive function or empty. Even if S is infinite, repetition of values may be necessary in this case.

[edit] Examples

  • Every recursive set is recursively enumerable, but it is not true that every recursively enumerable set is recursive.
  • A recursively enumerable language is a recursively enumerable subset of a formal language.
  • The set of all provable sentences in an effectively presented axiomatic system is a recursively enumerable set.
  • Matiyasevich's theorem states that every recursively enumerable set is a Diophantine set (the converse is trivially true).
  • The simple sets are recursively enumerable but not recursive.
  • The creative sets are recursively enumerable but not recursive.
  • Any productive set is not recursively enumerable.
  • Given a Gödel numbering φ of the computable functions, the set \{\langle i,x \rangle \mid \phi_i(x) \downarrow \} (where \langle i,x \rangle is the Cantor pairing function and \phi_i(x)\downarrow indicates φi(x) is defined) is recursively enumerable. This set encodes the halting problem as it describes the input parameters for which each Turing machine halts.
  • Given a Gödel numbering φ of the computable functions, the set \lbrace \left \langle x, y, z \right \rangle \mid \phi_x(y)=z \rbrace is recursively enumerable. This set encodes the problem of deciding a function value.
  • Given a partial function f from the natural numbers into the natural numbers, f is a partial recursive function if and only if the graph of f, that is, the set of all pairs \langle x,f(x)\rangle such that f(x) is defined, is recursively enumerable.

[edit] Properties

If A and B are recursively enumerable sets then AB, AB and A × B (with the ordered pair of natural numbers mapped to a single natural number with the Cantor pairing function) are recursively enumerable sets. The preimage of a recursively enumerable set under a partial recursive function is a recursively enumerable set.

A set is recursively enumerable if and only if it is at level \Sigma^0_1 of the arithmetical hierarchy.

A set T is called co-recursively enumerable or co-r.e. if its complement \mathbb{N} \setminus T is recursively enumerable. Equivalently, a set is co-r.e. if and only if it is at level \Pi^0_1 of the arithmetical hierarchy.

A set A is recursive (synonym: computable) if and only if both A and the complement of A are recursively enumerable. A set is recursive if and only if it is either the range of an increasing total recursive function or finite.

Some pairs of recursively enumerable sets are effectively separable and some are not.

[edit] Remarks

According to the Church-Turing thesis, any effectively calculable function is calculable by a Turing machine, and thus a set S is recursively enumerable if and only if there is some algorithm which yields an enumeration of S. This cannot be taken as a formal definition, however, because the Church-Turing thesis is an informal conjecture rather than a formal axiom.

The definition of a recursively enumerable set as the domain of a partial function, rather than the range of a total recursive function, is common in contemporary texts. This choice is motivated by the fact that in generalized recursion theories, such as α-recursion theory, the definition corresponding to domains has been found to be more natural. Other texts use the definition in terms of enumerations, which is equivalent for recursively enumerable sets.

[edit] References

Rogers, H. The Theory of Recursive Functions and Effective Computability, MIT Press. ISBN 0262680521; ISBN 0070535221

Soare, R. Recursively enumerable sets and degrees. Perspectives in Mathematical Logic. Springer-Verlag, Berlin, 1987. ISBN 3-540-15299-7

Soare, Robert I. Recursively enumerable sets and degrees. Bull. Amer. Math. Soc. 84 (1978), no. 6, 1149--1181.

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