A semantic proof of strong cut-admissibility for first-order Gödel logic

Ori Lahav; Arnon Avron

doi:10.1093/logcom/exs006

A semantic proof of strong cut-admissibility for first-order Gödel logic

Ori Lahav
, Arnon Avron

School of Computer Science and AI

Tel Aviv University

Research output: Contribution to journal › Article › peer-review

Abstract

We provide a constructive direct semantic proof of the completeness of the cut-free part of the hypersequent calculus HIF for the standard first-order Gödel logic (thereby proving both completeness of the calculus for its standard semantics, and the admissibility of the cut rule in the full calculus). The results also apply to derivations from assumptions (or 'non-logical axioms'), showing in particular that when the set of assumptions is closed under substitutions, then cuts can be confined to formulas occurring in the assumptions. The methods and results are then extended to handle the (Baaz) Delta connective as well.

Original language	English
Pages (from-to)	59-86
Number of pages	28
Journal	Journal of Logic and Computation
Volume	23
Issue number	1
DOIs	https://doi.org/10.1093/logcom/exs006
State	Published - Feb 2013

Keywords

Cut-admissibility
First order Gödel logic
Fuzzy logic
Hypersequents
Intermediate logic
Non-classical logic
Proof-theory
Semantic proof

ASJC Scopus subject areas

Software
Theoretical Computer Science
Arts and Humanities (miscellaneous)
Hardware and Architecture
Logic

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10.1093/logcom/exs006

Cite this

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title = "A semantic proof of strong cut-admissibility for first-order G{\"o}del logic",

abstract = "We provide a constructive direct semantic proof of the completeness of the cut-free part of the hypersequent calculus HIF for the standard first-order G{\"o}del logic (thereby proving both completeness of the calculus for its standard semantics, and the admissibility of the cut rule in the full calculus). The results also apply to derivations from assumptions (or 'non-logical axioms'), showing in particular that when the set of assumptions is closed under substitutions, then cuts can be confined to formulas occurring in the assumptions. The methods and results are then extended to handle the (Baaz) Delta connective as well.",

keywords = "Cut-admissibility, First order G{\"o}del logic, Fuzzy logic, Hypersequents, Intermediate logic, Non-classical logic, Proof-theory, Semantic proof",

author = "Ori Lahav and Arnon Avron",

note = "Funding Information: This research was supported by The Israel Science Foundation (grant no. 280-10).",

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AU - Avron, Arnon

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N2 - We provide a constructive direct semantic proof of the completeness of the cut-free part of the hypersequent calculus HIF for the standard first-order Gödel logic (thereby proving both completeness of the calculus for its standard semantics, and the admissibility of the cut rule in the full calculus). The results also apply to derivations from assumptions (or 'non-logical axioms'), showing in particular that when the set of assumptions is closed under substitutions, then cuts can be confined to formulas occurring in the assumptions. The methods and results are then extended to handle the (Baaz) Delta connective as well.

AB - We provide a constructive direct semantic proof of the completeness of the cut-free part of the hypersequent calculus HIF for the standard first-order Gödel logic (thereby proving both completeness of the calculus for its standard semantics, and the admissibility of the cut rule in the full calculus). The results also apply to derivations from assumptions (or 'non-logical axioms'), showing in particular that when the set of assumptions is closed under substitutions, then cuts can be confined to formulas occurring in the assumptions. The methods and results are then extended to handle the (Baaz) Delta connective as well.

KW - Cut-admissibility

KW - First order Gödel logic

KW - Fuzzy logic

KW - Hypersequents

KW - Intermediate logic

KW - Non-classical logic

KW - Proof-theory

KW - Semantic proof

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DO - 10.1093/logcom/exs006

M3 - مقالة

SN - 0955-792X

VL - 23

SP - 59

EP - 86

JO - Journal of Logic and Computation

JF - Journal of Logic and Computation

IS - 1

ER -

A semantic proof of strong cut-admissibility for first-order Gödel logic

Abstract

Keywords

ASJC Scopus subject areas

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