Abstract
AbstractDespite the incremental nature of Dynamic Syntax (DS), the semantic grounding of it remains that of predicate logic, itself grounded in set theory, so is poorly suited to expressing the rampantly context-relative nature of word meaning, and related phenomena such as incremental judgements of similarity needed for the modelling of disambiguation. Here, we show how DS can be assigned a compositional distributional semantics which enables such judgements and makes it possible to incrementally disambiguate language constructs using vector space semantics. Building on a proposal in our previous work, we implement and evaluate our model on real data, showing that it outperforms a commonly used additive baseline. In conclusion, we argue that these results set the ground for an account of the non-determinism of lexical content, in which the nature of word meaning is its dependence on surrounding context for its construal.
Funder
Horizon 2020 Framework Programme
Engineering and Physical Sciences Research Council
Publisher
Springer Science and Business Media LLC
Subject
Linguistics and Language,Philosophy,Computer Science (miscellaneous)
Reference68 articles.
1. Anderson, M. L. (2014). After phrenology: Neural reuse and the interactive brain. Cambridge, MA: MIT Press.
2. Baroni, M., Bernardi, R. & Zamparelli, R. (2014a). Frege in space: A program of compositional distributional semantics. Linguistic Issues in Language Technology, 9.
3. Baroni, M., Bernardini, S., Ferraresi, A., & Zanchetta, E. (2009). The WaCky wide web: A collection of very large linguistically processed web-crawled corpora. Language Resources and Evaluation, 43(3), 209–226.
4. Baroni, M., Dinu, G. & Kruszewski, G. (2014b). Don’t count, predict! A systematic comparison of context-counting versus context-predicting semantic vectors. In Proceedings of the 52nd Annual Meeting of the Association for Computational Linguistics, pages 238–247, Baltimore, Maryland. Association for Computational Linguistics.
5. Bruineberg, J., & Rietveld, E. (2014). Self-organization, free energy minimization, and optimal grip on a field of affordances. Directions in Human Neuroscience, 8(599).