Computational complexity of some Ramsey quantifiers in ... - CiteSeerX
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Computational complexity of some Ramsey quantifiers in ... - CiteSeerX
Computational complexity of some Ramsey quantifiers in finite models. Marcin Mostowski. Warsaw University. Jakub Szymanik. ILLC UvA, Warsaw University, ...
Computational complexity of some Ramsey quantifiers in finite models Marcin Mostowski Warsaw University
Jakub Szymanik ILLC UvA, Warsaw University, GSSR Polish Academy of Science
The problem of computational complexity of semantics for some natural language constructions – considered in [M. Mostowski, D. Wojtyniak 2004] – motivates an interest in complexity of Ramsey quantifiers in finite models. In general a sentence with a Ramsey quantifier R of the following form Rx, yH(x, y) is interpreted as ∃A(A is big relatively to the universe ∧A2 ⊆ H). In the paper cited the problem of the complexity of the Hintikka sentence is reduced to the problem of computational complexity of the Ramsey quantifier for which the phrase “A is big relatively to the universe” is interpreted as containing at least one representative of each equivalence class, for some given equvalence relation. In this work we consider quantifiers Rf , for which “A is big relatively to the universe” means “card(A) > f (n), where n is the size of the universe”. Following [Blass, Gurevich 1986] we call R mighty if Rx, yH(x, y) defines N P – complete class of finite models. Similarly we say that Rf is N P –hard if the corresponding class is N P –hard. We prove the following theorems: Theorem 1 Let f (n) be the integral part of r × n, for some rational r such that 0 < r < 1. Thus Rf is mighty. Theorem 2 Let f be such that limn→∞ f (n)/n = a exists and 0 < a < 1. Then Rf is N P –hard. Theorem 3 If f satisfies the assumptions of the previous theorem and f is P T IM E computable then Rf is mighty.
References [Blass, Gurevich 1986] A. Blass and Y. Gurevich, Henkin Quantifiers and Complete Problems, Annals of Pure and Applied Logic Vol. 32 (1986), pp. 1 – 16. [M. Mostowski, D. Wojtyniak 2004] M. MOSTOWSKI, D. WOJTYNIAK Computational Complexity of the Semantics of Some Natural Language Constructions, Annals of Pure and Applied Logic Vol. 127 (2004), 1 – 3, pp. 219 – 227.
