Modeling Semantic Containment and Exclusion in Natural Language Inference

Abstract

We propose an approach to natural language inference based on a model of natural logic, which identifies valid inferences by their lexical and syntactic features, without full semantic interpretation. We greatly extend past work in natural logic, which has focused solely on semantic containment and monotonicity, to incorporate both semantic exclusion and implicativity. Our system decomposes an inference problem into a sequence of atomic edits linking premise to hypothesis; predicts a lexical entailment relation for each edit using a statistical classifier; propagates these relations upward through a syntax tree according to semantic properties of intermediate nodes; and composes the resulting entailment relations across the edit sequence. We evaluate our system on the FraCaS test suite, and achieve a 27% reduction in error from previous work. We also show that hybridizing an existing RTE system with our natural logic system yields significant gains on the RTE3 test suite.

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Citations of this work

Inclusion and Exclusion in Natural Language.Thomas F. Icard - 2012 - Studia Logica 100 (4):705-725.

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References found in this work

Essays in Logical Semantics.Johan van Benthem - 1988 - Studia Logica 47 (2):172-173.
Linguistics and natural logic.George Lakoff - 1970 - Synthese 22 (1-2):151 - 271.
Essays in Logical Semantics.John Hawthorn - 1988 - Journal of Symbolic Logic 53 (3):990-991.

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