Combining Paraconsistent Logic with Argumentation

Diana Grooters; Hendrik Prakken

doi:10.3233/978-1-61499-436-7-301

Combining Paraconsistent Logic with Argumentation

Diana Grooters, Hendrik Prakken

Utrecht University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

Abstract

One tradition in the logical study of argumentation is to allow for arguments that combine strict and defeasible inference rules, and to derive the strict inference rules from a logic at least as strong as classical logic. An unsolved problem in this tradition is how the trivialising effect of the classical Ex Falso principle can be avoided when two arguments that use defeasible rules have contradictory conclusions. The problem is especially hard since any solution should arguably preserve current results on satisfaction of consistency and logical closure properties. One approach to solve the problem is to replace classical logic as the source for strict rules with a weaker, monotonic paraconsistent logic. This paper explores this approach in the context of the ASPIC+ framework for structured argumentation, by instantiating it with a paraconsistent consequence notion of Rescher & Manor (1970). The results are positive: satisfaction of the closure and consistency postulate is proven.

Original language	English
Title of host publication	Computational Models of Argument. Proceedings of COMMA 2014
Editors	Simon Parsons, Nir Oren, Chris Reed, Frederico Cerutti
Place of Publication	Amsterdam etc
Publisher	IOS Press
Pages	301-312
Number of pages	12
ISBN (Electronic)	978-1-61499-436-7
ISBN (Print)	978-1-61499-435-0
DOIs	https://doi.org/10.3233/978-1-61499-436-7-301
Publication status	Published - 2014

Publication series

Name	Frontiers in Artificial Intelligence and Applications
Publisher	IOS Press
Volume	266
ISSN (Print)	0922-6389
ISSN (Electronic)	1879-8314

Keywords

ASPIC+
strict and defeasible inference
paraconsistent logics
rationality postulates
contamination

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10.3233/978-1-61499-436-7-301

COMMA14Submitted manuscript, 248 KB

Cite this

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title = "Combining Paraconsistent Logic with Argumentation",

abstract = "One tradition in the logical study of argumentation is to allow for arguments that combine strict and defeasible inference rules, and to derive the strict inference rules from a logic at least as strong as classical logic. An unsolved problem in this tradition is how the trivialising effect of the classical Ex Falso principle can be avoided when two arguments that use defeasible rules have contradictory conclusions. The problem is especially hard since any solution should arguably preserve current results on satisfaction of consistency and logical closure properties. One approach to solve the problem is to replace classical logic as the source for strict rules with a weaker, monotonic paraconsistent logic. This paper explores this approach in the context of the ASPIC+ framework for structured argumentation, by instantiating it with a paraconsistent consequence notion of Rescher \& Manor (1970). The results are positive: satisfaction of the closure and consistency postulate is proven.",

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author = "Diana Grooters and Hendrik Prakken",

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series = "Frontiers in Artificial Intelligence and Applications",

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booktitle = "Computational Models of Argument. Proceedings of COMMA 2014",

address = "Netherlands",

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Combining Paraconsistent Logic with Argumentation. / Grooters, Diana; Prakken, Hendrik.
Computational Models of Argument. Proceedings of COMMA 2014. ed. / Simon Parsons; Nir Oren; Chris Reed; Frederico Cerutti. Amsterdam etc: IOS Press, 2014. p. 301-312 (Frontiers in Artificial Intelligence and Applications; Vol. 266).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - Combining Paraconsistent Logic with Argumentation

AU - Grooters, Diana

AU - Prakken, Hendrik

PY - 2014

Y1 - 2014

N2 - One tradition in the logical study of argumentation is to allow for arguments that combine strict and defeasible inference rules, and to derive the strict inference rules from a logic at least as strong as classical logic. An unsolved problem in this tradition is how the trivialising effect of the classical Ex Falso principle can be avoided when two arguments that use defeasible rules have contradictory conclusions. The problem is especially hard since any solution should arguably preserve current results on satisfaction of consistency and logical closure properties. One approach to solve the problem is to replace classical logic as the source for strict rules with a weaker, monotonic paraconsistent logic. This paper explores this approach in the context of the ASPIC+ framework for structured argumentation, by instantiating it with a paraconsistent consequence notion of Rescher & Manor (1970). The results are positive: satisfaction of the closure and consistency postulate is proven.

AB - One tradition in the logical study of argumentation is to allow for arguments that combine strict and defeasible inference rules, and to derive the strict inference rules from a logic at least as strong as classical logic. An unsolved problem in this tradition is how the trivialising effect of the classical Ex Falso principle can be avoided when two arguments that use defeasible rules have contradictory conclusions. The problem is especially hard since any solution should arguably preserve current results on satisfaction of consistency and logical closure properties. One approach to solve the problem is to replace classical logic as the source for strict rules with a weaker, monotonic paraconsistent logic. This paper explores this approach in the context of the ASPIC+ framework for structured argumentation, by instantiating it with a paraconsistent consequence notion of Rescher & Manor (1970). The results are positive: satisfaction of the closure and consistency postulate is proven.

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KW - strict and defeasible inference

KW - paraconsistent logics

KW - rationality postulates

KW - contamination

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M3 - Conference contribution

SN - 978-1-61499-435-0

T3 - Frontiers in Artificial Intelligence and Applications

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BT - Computational Models of Argument. Proceedings of COMMA 2014

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A2 - Oren, Nir

A2 - Reed, Chris

A2 - Cerutti, Frederico

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CY - Amsterdam etc

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Combining Paraconsistent Logic with Argumentation

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