Binary and multitask classification model for Dutch anaphora resolution: Die/dat prediction

L Allein, A Leeuwenberg, MF Moens - arXiv preprint arXiv:2001.02943, 2020 - arxiv.org
arXiv preprint arXiv:2001.02943, 2020arxiv.org
The correct use of Dutch pronouns' die'and'dat'is a stumbling block for both native and non-
native speakers of Dutch due to the multiplicity of syntactic functions and the dependency on
the antecedent's gender and number. Drawing on previous research conducted on neural
context-dependent dt-mistake correction models (Heyman et al. 2018), this study constructs
the first neural network model for Dutch demonstrative and relative pronoun resolution that
specifically focuses on the correction and part-of-speech prediction of these two pronouns …
The correct use of Dutch pronouns 'die' and 'dat' is a stumbling block for both native and non-native speakers of Dutch due to the multiplicity of syntactic functions and the dependency on the antecedent's gender and number. Drawing on previous research conducted on neural context-dependent dt-mistake correction models (Heyman et al. 2018), this study constructs the first neural network model for Dutch demonstrative and relative pronoun resolution that specifically focuses on the correction and part-of-speech prediction of these two pronouns. Two separate datasets are built with sentences obtained from, respectively, the Dutch Europarl corpus (Koehn 2015) - which contains the proceedings of the European Parliament from 1996 to the present - and the SoNaR corpus (Oostdijk et al. 2013) - which contains Dutch texts from a variety of domains such as newspapers, blogs and legal texts. Firstly, a binary classification model solely predicts the correct 'die' or 'dat'. The classifier with a bidirectional long short-term memory architecture achieves 84.56% accuracy. Secondly, a multitask classification model simultaneously predicts the correct 'die' or 'dat' and its part-of-speech tag. The model containing a combination of a sentence and context encoder with both a bidirectional long short-term memory architecture results in 88.63% accuracy for die/dat prediction and 87.73% accuracy for part-of-speech prediction. More evenly-balanced data, larger word embeddings, an extra bidirectional long short-term memory layer and integrated part-of-speech knowledge positively affects die/dat prediction performance, while a context encoder architecture raises part-of-speech prediction performance. This study shows promising results and can serve as a starting point for future research on machine learning models for Dutch anaphora resolution.
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