Brodsky’s coding method for propositional logic

Brodsky’s coding method for propositional logic is considered in the paper. Based on the sequent calculus, the method allows us to determine whether an arbitrary sequent is derivable in the calculus without constructing proof-search trees. The coding method, presented in the paper, can be used as a decision procedure for propositional logic.

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A proof-search system for the logic of likelihood

Logic Journal of IGPL ◽

10.1093/jigpal/jzz022 ◽

2019 ◽

Vol 28 (3) ◽

pp. 261-280 ◽

Cited By ~ 1

Author(s):

R Alonderis ◽

H Giedra

Keyword(s):

Decision Procedure ◽

Sequent Calculus ◽

Search System ◽

Proof Search

Abstract The cut-free Gentzen-type sequent calculus LLK for the logic of likelihood (LL) is introduced in the paper. It is proved that the calculus is sound and complete for LL. Using the introduced calculus LLK, a decision procedure for LL is presented.

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A coding method for a sequent calculus of propositional logic

Lithuanian Mathematical Journal ◽

10.1007/s10986-008-9008-6 ◽

2008 ◽

Vol 48 (2) ◽

pp. 123-136

Author(s):

R. Alonderis

Keyword(s):

Propositional Logic ◽

Sequent Calculus ◽

Coding Method

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Deduction in Non-Fregean Propositional Logic SCI

Axioms ◽

10.3390/axioms8040115 ◽

2019 ◽

Vol 8 (4) ◽

pp. 115 ◽

Cited By ~ 1

Author(s):

Joanna Golińska-Pilarek ◽

Magdalena Welle

Keyword(s):

Propositional Logic ◽

Sequent Calculus ◽

Classical Propositional Logic ◽

Tableau System ◽

Soundness And Completeness

We study deduction systems for the weakest, extensional and two-valued non-Fregean propositional logic SCI . The language of SCI is obtained by expanding the language of classical propositional logic with a new binary connective ≡ that expresses the identity of two statements; that is, it connects two statements and forms a new one, which is true whenever the semantic correlates of the arguments are the same. On the formal side, SCI is an extension of classical propositional logic with axioms characterizing the identity connective, postulating that identity must be an equivalence and obey an extensionality principle. First, we present and discuss two types of systems for SCI known from the literature, namely sequent calculus and a dual tableau-like system. Then, we present a new dual tableau system for SCI and prove its soundness and completeness. Finally, we discuss and compare the systems presented in the paper.

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Sequent Calculus for Intuitionistic Linear Propositional Logic

Mathematical Logic ◽

10.1007/978-1-4613-0609-2_15 ◽

1990 ◽

pp. 223-242 ◽

Cited By ~ 7

Author(s):

V. Michele Abrusci

Keyword(s):

Propositional Logic ◽

Sequent Calculus

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The Method of Socratic Proofs Meets Correspondence Analysis

Bulletin of the Section of Logic ◽

10.18778/0138-0680.48.2.02 ◽

2019 ◽

Vol 48 (2) ◽

pp. 99-116

Author(s):

Dorota Leszczyńska-Jasion ◽

Yaroslav Petrukhin ◽

Vasilyi Shangin

Keyword(s):

Correspondence Analysis ◽

Boolean Functions ◽

Propositional Logic ◽

Sequent Calculus ◽

Sequent Calculi ◽

Classical Propositional Logic ◽

Logic Of Questions ◽

Proof Systems

The goal of this paper is to propose correspondence analysis as a technique for generating the so-called erotetic (i.e. pertaining to the logic of questions) calculi which constitute the method of Socratic proofs by Andrzej Wiśniewski. As we explain in the paper, in order to successfully design an erotetic calculus one needs invertible sequent-calculus-style rules. For this reason, the proposed correspondence analysis resulting in invertible rules can constitute a new foundation for the method of Socratic proofs. Correspondence analysis is Kooi and Tamminga's technique for designing proof systems. In this paper it is used to consider sequent calculi with non-branching (the only exception being the rule of cut), invertible rules for the negation fragment of classical propositional logic and its extensions by binary Boolean functions.

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Proof search in the intuitionistic sequent calculus

Automated Deduction—CADE-11 - Lecture Notes in Computer Science ◽

10.1007/3-540-55602-8_189 ◽

1992 ◽

pp. 522-536 ◽

Cited By ~ 22

Author(s):

N. Shankar

Keyword(s):

Sequent Calculus ◽

Proof Search

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Gentzen sequent calculi for some intuitionistic modal logics

Logic Journal of IGPL ◽

10.1093/jigpal/jzz020 ◽

2019 ◽

Vol 27 (4) ◽

pp. 596-623

Author(s):

Zhe Lin ◽

Minghui Ma

Keyword(s):

Propositional Logic ◽

Sequent Calculus ◽

Modal Logics ◽

Cut Elimination ◽

Sequent Calculi ◽

Intuitionistic Propositional Logic ◽

Propositional Language ◽

Intuitionistic Modal Logics ◽

Subformula Property ◽

Gentzen Sequent Calculus

Abstract Intuitionistic modal logics are extensions of intuitionistic propositional logic with modal axioms. We treat with two modal languages ${\mathscr{L}}_\Diamond $ and $\mathscr{L}_{\Diamond ,\Box }$ which extend the intuitionistic propositional language with $\Diamond $ and $\Diamond ,\Box $, respectively. Gentzen sequent calculi are established for several intuitionistic modal logics. In particular, we introduce a Gentzen sequent calculus for the well-known intuitionistic modal logic $\textsf{MIPC}$. These sequent calculi admit cut elimination and subformula property. They are decidable.

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Cut elimination and complexity bounds for intuitionistic epistemic logic

Journal of Logic and Computation ◽

10.1093/logcom/exaa012 ◽

2020 ◽

Vol 30 (1) ◽

pp. 281-294

Author(s):

Vladimir N Krupski

Keyword(s):

Epistemic Logic ◽

Sequent Calculus ◽

Formal System ◽

Point Of View ◽

Cut Elimination ◽

Polynomial Space ◽

Complexity Bounds ◽

Proof Search

Abstract The formal system of intuitionistic epistemic logic (IEL) was proposed by S. Artemov and T. Protopopescu. It provides the formal foundation for the study of knowledge from an intuitionistic point of view based on Brouwer–Heyting–Kolmogorov semantics of intuitionism. We construct a cut-free sequent calculus for IEL and establish that polynomial space is sufficient for the proof search in it. We prove that IEL is PSPACE-complete.

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Goal-Oriented Proof-Search in Natural Deduction for Intuitionistic Propositional Logic

Journal of Automated Reasoning ◽

10.1007/s10817-017-9427-3 ◽

2017 ◽

Vol 62 (1) ◽

pp. 127-167 ◽

Cited By ~ 1

Author(s):

Mauro Ferrari ◽

Camillo Fiorentini

Keyword(s):

Propositional Logic ◽

Natural Deduction ◽

Intuitionistic Propositional Logic ◽

Proof Search

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Deep Proof Search in MELL

10.29007/p1fd ◽

2018 ◽

Author(s):

Ozan Kahramanogullari

Keyword(s):

Classical Logic ◽

Sequent Calculus ◽

Linear Logic ◽

Proof Search ◽

Proof Construction ◽

Deep Inference ◽

Speed Up

The deep inference presentation of multiplicative exponential linear logic (MELL) benefits from a rich combinatoric analysis with many more proofs in comparison to its sequent calculus presentation. In the deep inference setting, all the sequent calculus proofs are preserved. Moreover, many other proofs become available, and some of these proofs are much shorter. However, proof search in deep inference is subject to a greater nondeterminism, and this nondeterminism constitutes a bottleneck for applications. To this end, we address the problem of reducing nondeterminism in MELL by refining and extending our technique that has been previously applied to multiplicative linear logic and classical logic. We show that, besides the nondeterminism in commutative contexts, the nondeterminism in exponential contexts can be reduced in a proof theoretically clean manner. The method conserves the exponential speed-up in proof construction due to deep inference, exemplified by Statman tautologies. We validate the improvement in accessing the shorter proofs by experiments with our implementations.

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