Litcius/Paper detail

Neural Proof Nets

Konstantinos Kogkalidis, Michael Moortgat, Richard Moot

202011 citationsDOIOpen Access PDF

Abstract

Linear logic and the linear -calculus have a long standing tradition in the study of natural language form and meaning. Among the proof calculi of linear logic, proof nets are of particular interest, offering an attractive geometric representation of derivations that is unburdened by the bureaucratic complications of conventional prooftheoretic formats. Building on recent advances in set-theoretic learning, we propose a neural variant of proof nets based on Sinkhorn networks, which allows us to translate parsing as the problem of extracting syntactic primitives and permuting them into alignment. Our methodology induces a batch-efficient, end-to-end differentiable architecture that actualizes a formally grounded yet highly efficient neuro-symbolic parser. We test our approach on AEthel, a dataset of typelogical derivations for written Dutch, where it manages to correctly transcribe raw text sentences into proofs and terms of the linear calculus with an accuracy of as high as 70%.

Topics & Concepts

Mathematical proofParsingComputer scienceStructural proof theoryCombinatory categorial grammarFormal proofRepresentation (politics)Artificial neural networkSet (abstract data type)Natural languageProgramming languageTheoretical computer scienceProof theoryAlgebra over a fieldArtificial intelligenceDiscrete mathematicsAlgorithmMathematicsPure mathematicsGeometryPoliticsContext-free grammarLawPolitical scienceTree-adjoining grammarNatural Language Processing TechniquesTopic ModelingSemantic Web and Ontologies