The Tarski–Kuratowski algorithm for the arithmetical hierarchy consists of the following steps:
Convert the formula to prenex normal form. (This is the non-deterministic part of the algorithm, as there may be more than one valid prenex normal form for the given formula.)
If the formula is quantifier-free, it is in and .
Otherwise, count the number of alternations of quantifiers; call this k.
tarski, kuratowski, algorithm, computability, theory, mathematical, logic, deterministic, algorithm, that, produces, upper, bound, complexity, given, formula, arithmetical, hierarchy, analytical, hierarchy, algorithm, named, after, alfred, tarski, kazimierz, k. In computability theory and mathematical logic the Tarski Kuratowski algorithm is a non deterministic algorithm that produces an upper bound for the complexity of a given formula in the arithmetical hierarchy and analytical hierarchy The algorithm is named after Alfred Tarski and Kazimierz Kuratowski Algorithm editThe Tarski Kuratowski algorithm for the arithmetical hierarchy consists of the following steps Convert the formula to prenex normal form This is the non deterministic part of the algorithm as there may be more than one valid prenex normal form for the given formula If the formula is quantifier free it is in S 0 0 displaystyle Sigma 0 0 nbsp and P 0 0 displaystyle Pi 0 0 nbsp Otherwise count the number of alternations of quantifiers call this k If the first quantifier is the formula is in S k 1 0 displaystyle Sigma k 1 0 nbsp If the first quantifier is the formula is in P k 1 0 displaystyle Pi k 1 0 nbsp References editRogers Hartley The Theory of Recursive Functions and Effective Computability MIT Press ISBN 0 262 68052 1 ISBN 0 07 053522 1 nbsp This mathematical logic related article is a stub You can help Wikipedia by expanding it vte Retrieved from https en wikipedia org w index php title Tarski Kuratowski algorithm amp oldid 1130327263, wikipedia, wiki, book, books, library,
