A comparison between monoidal and substructural logics

Journal of Applied Non-Classical Logics 26 (2):126-159 (2016)
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Abstract

Monoidal logics were introduced as a foundational framework to analyse the proof theory of deontic logic. Building on Lambek’s work in categorical logic, logical systems are defined as deductive systems, that is, as collections of equivalence classes of proofs satisfying specific rules and axiom schemata. This approach enables the classification of deductive systems with respect to their categorical structure. When looking at their proof theory, however, one can see that there are similarities between monoidal and substructural logics. The purpose of the present paper is to address this issue and highlight the differences between these two approaches. We argue that monoidal logics provide a more flexible foundational framework that enables a finer analysis of the relationship between negation and other logical connectives. We show that the elimination of double negation is independent from the de Morgan dualities, that monoidal deductive systems are not necessarily weakly distributive and that deduc...

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10.1080/11663081.2016.1179528

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Clayton Peterson
Université de Montréal

Citations of this work

Monoidal logics: completeness and classical systems.Clayton Peterson - 2019 - Journal of Applied Non-Classical Logics 29 (2):121-151.
Studies in the logic of K -onfirmation.Clayton Peterson - 2019 - Philosophical Studies 176 (2):437-471.

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References found in this work

Modal Logic: An Introduction.Brian F. Chellas - 1980 - New York: Cambridge University Press.
The Mathematics of Sentence Structure.Joachim Lambek - 1958 - Journal of Symbolic Logic 65 (3):154-170.

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