Schematic Cut Elimination and the Ordered Pigeonhole Principle

David Cerna; Alexander Leitsch

doi:10.1007/978-3-319-40229-1_17

Schematic Cut Elimination and the Ordered Pigeonhole Principle

David Cerna
, Alexander Leitsch

Research Institute for Symbolic Computation

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

Abstract

Schematic cut-elimination is a method of cut-elimination which can handle certain types of inductive proofs. In previous work, an attempt was made to apply the schematic CERES method to a formal proof with an arbitrary number of Π2 cuts (a recursive proof encapsulating the infinitary pigeonhole principle). However the derived schematic refutation for the characteristic clause set of the proof could not be expressed in the schematic resolution calculus developed so far. Without this formalization a Herbrand system cannot be algorithmically extracted. In this work, we provide a restriction of infinitary pigeonhole principle, the ECA-schema (Eventually Constant Assertion), or ordered infinitary pigeonhole principle, whose analysis can be completely carried out in the existing framework of schematic CERES. This is the first time the framework is used for proof analysis. From the refutation of the clause set and a substitution schema we construct a Herbrand system.

Original language	English
Title of host publication	Automated Reasoning - 8th International Joint Conference, IJCAR 2016, Coimbra, Portugal, June 27 - July 2, 2016, Proceedings
Editors	Nicola Olivetti and Ashish Tiwari
Publisher	Springer
Pages	241-256
Number of pages	16
Volume	9706
DOIs	https://doi.org/10.1007/978-3-319-40229-1_17
Publication status	Published - Jun 2016

Publication series

Name	Lecture Notes in Computer Science (LNCS)
ISSN (Print)	0302-9743

Fields of science

101 Mathematics
101001 Algebra
101005 Computer algebra
101009 Geometry
101012 Combinatorics
101013 Mathematical logic
101020 Technical mathematics

JKU Focus areas

Computation in Informatics and Mathematics

Access to Document

10.1007/978-3-319-40229-1_17

Cite this

Cerna, D., & Leitsch, A. (2016). Schematic Cut Elimination and the Ordered Pigeonhole Principle. In Nicola Olivetti and Ashish Tiwari (Ed.), Automated Reasoning - 8th International Joint Conference, IJCAR 2016, Coimbra, Portugal, June 27 - July 2, 2016, Proceedings (Vol. 9706, pp. 241-256). (Lecture Notes in Computer Science (LNCS)). Springer. https://doi.org/10.1007/978-3-319-40229-1_17

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abstract = "Schematic cut-elimination is a method of cut-elimination which can handle certain types of inductive proofs. In previous work, an attempt was made to apply the schematic CERES method to a formal proof with an arbitrary number of Π2 cuts (a recursive proof encapsulating the infinitary pigeonhole principle). However the derived schematic refutation for the characteristic clause set of the proof could not be expressed in the schematic resolution calculus developed so far. Without this formalization a Herbrand system cannot be algorithmically extracted. In this work, we provide a restriction of infinitary pigeonhole principle, the ECA-schema (Eventually Constant Assertion), or ordered infinitary pigeonhole principle, whose analysis can be completely carried out in the existing framework of schematic CERES. This is the first time the framework is used for proof analysis. From the refutation of the clause set and a substitution schema we construct a Herbrand system.",

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Cerna, D & Leitsch, A 2016, Schematic Cut Elimination and the Ordered Pigeonhole Principle. in Nicola Olivetti and Ashish Tiwari (ed.), Automated Reasoning - 8th International Joint Conference, IJCAR 2016, Coimbra, Portugal, June 27 - July 2, 2016, Proceedings. vol. 9706, Lecture Notes in Computer Science (LNCS), Springer, pp. 241-256. https://doi.org/10.1007/978-3-319-40229-1_17

Schematic Cut Elimination and the Ordered Pigeonhole Principle. / Cerna, David; Leitsch, Alexander.
Automated Reasoning - 8th International Joint Conference, IJCAR 2016, Coimbra, Portugal, June 27 - July 2, 2016, Proceedings. ed. / Nicola Olivetti and Ashish Tiwari. Vol. 9706 Springer, 2016. p. 241-256 (Lecture Notes in Computer Science (LNCS)).

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

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N2 - Schematic cut-elimination is a method of cut-elimination which can handle certain types of inductive proofs. In previous work, an attempt was made to apply the schematic CERES method to a formal proof with an arbitrary number of Π2 cuts (a recursive proof encapsulating the infinitary pigeonhole principle). However the derived schematic refutation for the characteristic clause set of the proof could not be expressed in the schematic resolution calculus developed so far. Without this formalization a Herbrand system cannot be algorithmically extracted. In this work, we provide a restriction of infinitary pigeonhole principle, the ECA-schema (Eventually Constant Assertion), or ordered infinitary pigeonhole principle, whose analysis can be completely carried out in the existing framework of schematic CERES. This is the first time the framework is used for proof analysis. From the refutation of the clause set and a substitution schema we construct a Herbrand system.

AB - Schematic cut-elimination is a method of cut-elimination which can handle certain types of inductive proofs. In previous work, an attempt was made to apply the schematic CERES method to a formal proof with an arbitrary number of Π2 cuts (a recursive proof encapsulating the infinitary pigeonhole principle). However the derived schematic refutation for the characteristic clause set of the proof could not be expressed in the schematic resolution calculus developed so far. Without this formalization a Herbrand system cannot be algorithmically extracted. In this work, we provide a restriction of infinitary pigeonhole principle, the ECA-schema (Eventually Constant Assertion), or ordered infinitary pigeonhole principle, whose analysis can be completely carried out in the existing framework of schematic CERES. This is the first time the framework is used for proof analysis. From the refutation of the clause set and a substitution schema we construct a Herbrand system.

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Cerna D, Leitsch A. Schematic Cut Elimination and the Ordered Pigeonhole Principle. In Nicola Olivetti and Ashish Tiwari, editor, Automated Reasoning - 8th International Joint Conference, IJCAR 2016, Coimbra, Portugal, June 27 - July 2, 2016, Proceedings. Vol. 9706. Springer. 2016. p. 241-256. (Lecture Notes in Computer Science (LNCS)). doi: 10.1007/978-3-319-40229-1_17

Schematic Cut Elimination and the Ordered Pigeonhole Principle

Abstract

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