Abstract
Words can have multiple senses. Compositional distributional models of meaning have been argued to deal well with finer shades of meaning variation known as polysemy, but are not so well equipped to handle word senses that are etymologically unrelated, or homonymy. Moving from vectors to density matrices allows us to encode a probability distribution over different senses of a word, and can also be accommodated within a compositional distributional model of meaning. In this paper we present three new neural models for learning density matrices from a corpus, and test their ability to discriminate between word senses on a range of compositional datasets. When paired with a particular composition method, our best model outperforms existing vector-based compositional models as well as strong sentence encoders.
Cite
CITATION STYLE
Meyer, F., & Lewis, M. (2020). Modelling Lexical Ambiguity with Density Matrices. In CoNLL 2020 - 24th Conference on Computational Natural Language Learning, Proceedings of the Conference (pp. 276–290). Association for Computational Linguistics (ACL). https://doi.org/10.18653/v1/2020.conll-1.21
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