Bounded Proofs and Step Frames
Identifieur interne : 003B40 ( Istex/Curation ); précédent : 003B39; suivant : 003B41Bounded Proofs and Step Frames
Auteurs : Nick Bezhanishvili [Pays-Bas] ; Silvio Ghilardi [Italie]Source :
- Lecture Notes in Computer Science [ 0302-9743 ]
Abstract
Abstract: The longstanding research line investigating free algebra constructions in modal logic from an algebraic and coalgebraic point of view recently lead to the notion of a one-step frame [14], [8]. A one-step frame is a two-sorted structure which admits interpretations of modal formulae without nested modal operators. In this paper, we exploit the potential of one-step frames for investigating proof-theoretic aspects. This includes developing a method which detects when a specific rule-based calculus Ax axiomatizing a given logic L has the so-called bounded proof property. This property is a kind of an analytic subformula property limiting the proof search space. We define conservative one-step frames and prove that every finite conservative one-step frame for Ax is a p-morphic image of a finite Kripke frame for L iff Ax has the bounded proof property and L has the finite model property. This result, combined with a ‘one-step version’ of the classical correspondence theory, turns out to be quite powerful in applications. For simple logics such as K, T, K4, S4, etc, establishing basic metatheoretical properties becomes a completely automatic task (the related proof obligations can be instantaneously discharged by current first-order provers). For more complicated logics, some ingenuity is needed, however we successfully applied our uniform method to Avron’s cut-free system for GL and to Goré’s cut-free system for S4.3.
Url:
DOI: 10.1007/978-3-642-40537-2_6
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<front><div type="abstract" xml:lang="en">Abstract: The longstanding research line investigating free algebra constructions in modal logic from an algebraic and coalgebraic point of view recently lead to the notion of a one-step frame [14], [8]. A one-step frame is a two-sorted structure which admits interpretations of modal formulae without nested modal operators. In this paper, we exploit the potential of one-step frames for investigating proof-theoretic aspects. This includes developing a method which detects when a specific rule-based calculus Ax axiomatizing a given logic L has the so-called bounded proof property. This property is a kind of an analytic subformula property limiting the proof search space. We define conservative one-step frames and prove that every finite conservative one-step frame for Ax is a p-morphic image of a finite Kripke frame for L iff Ax has the bounded proof property and L has the finite model property. This result, combined with a ‘one-step version’ of the classical correspondence theory, turns out to be quite powerful in applications. For simple logics such as K, T, K4, S4, etc, establishing basic metatheoretical properties becomes a completely automatic task (the related proof obligations can be instantaneously discharged by current first-order provers). For more complicated logics, some ingenuity is needed, however we successfully applied our uniform method to Avron’s cut-free system for GL and to Goré’s cut-free system for S4.3.</div>
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