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Revisiting Higher-Order Dependency Parsers

Fonseca, E.F. ; Martins, A.

Revisiting Higher-Order Dependency Parsers, Proc Annual Meeting of the Association for Computational Linguistics - ACL, Seattle, United States, Vol. , pp. 8795 - 8800, July, 2020.

Digital Object Identifier: 10.18653/v1/2020.acl-main.776

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Abstract
Neural encoders have allowed dependency parsers to shift from higher-order structured models to simpler first-order ones, making decoding faster and still achieving better accuracy than non-neural parsers. This has led to a belief that neural encoders can implicitly encode structural constraints, such as siblings and grandparents in a tree. We tested this hypothesis and found that neural parsers may benefit from higher-order features, even when employing a powerful pre-trained encoder, such as BERT. While the gains of higher-order features are small in the presence of a powerful encoder, they are consistent for long-range dependencies and long sentences. In particular, higher-order models are more accurate on full sentence parses and on the exact match of modifier lists, indicating that they deal better with larger, more complex structures.