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Commodious axiomatization of quantifiers in multiple-valued logic
Studia Logica 61 (1):101-121 (1998)
Abstract
We provide tools for a concise axiomatization of a broad class of quantifiers in many-valued logic, so-called distribution quantifiers. Although sound and complete axiomatizations for such quantifiers exist, their size renders them virtually useless for practical purposes. We show that for quantifiers based on finite distributive lattices compact axiomatizations can be obtained schematically. This is achieved by providing a link between skolemized signed formulas and filters/ideals in Boolean set lattices. Then lattice theoretic tools such as Birkhoff's representation theorem for finite distributive lattices are used to derive tableau-style axiomatizations of distribution quantifiers.Links
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Citations of this work
Labeled calculi and finite-valued logics.Matthias Baaz, Christian G. Fermüller, Gernot Salzer & Richard Zach - 1998 - Studia Logica 61 (1):7-33.
On Gentzen Relations Associated with Finite-valued Logics Preserving Degrees of Truth.Angel J. Gil - 2013 - Studia Logica 101 (4):749-781.
References found in this work
Introduction to Lattices and Order.B. A. Davey & H. A. Priestley - 2002 - Cambridge University Press.
Quantifiers in formal and natural languages.Dag Westerståhl - 1983 - In Dov M. Gabbay & Franz Guenthner (eds.), Handbook of Philosophical Logic. Dordrecht, Netherland: Kluwer Academic Publishers. pp. 1--131.
Intuitionistic fuzzy logic and intuitionistic fuzzy set theory.Gaisi Takeuti & Satoko Titani - 1984 - Journal of Symbolic Logic 49 (3):851-866.
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