1,490 research outputs found
Deep Multitask Learning for Semantic Dependency Parsing
We present a deep neural architecture that parses sentences into three
semantic dependency graph formalisms. By using efficient, nearly arc-factored
inference and a bidirectional-LSTM composed with a multi-layer perceptron, our
base system is able to significantly improve the state of the art for semantic
dependency parsing, without using hand-engineered features or syntax. We then
explore two multitask learning approaches---one that shares parameters across
formalisms, and one that uses higher-order structures to predict the graphs
jointly. We find that both approaches improve performance across formalisms on
average, achieving a new state of the art. Our code is open-source and
available at https://github.com/Noahs-ARK/NeurboParser.Comment: Proceedings of ACL 201
Cross-lingual transfer learning and multitask learning for capturing multiword expressions
This is an accepted manuscript of an article published by Association for Computational Linguistics in Proceedings of the Joint Workshop on Multiword Expressions and WordNet (MWE-WN 2019), available online: https://www.aclweb.org/anthology/W19-5119
The accepted version of the publication may differ from the final published version.Recent developments in deep learning have prompted a surge of interest in the application of multitask and transfer learning to NLP problems. In this study, we explore for the first time, the application of transfer learning (TRL) and multitask learning (MTL) to the identification of Multiword Expressions (MWEs). For MTL, we exploit the shared syntactic information between MWE and dependency parsing models to jointly train a single model on both tasks. We specifically predict two types of labels: MWE and dependency parse. Our neural MTL architecture utilises the supervision of dependency parsing in lower layers and predicts MWE tags in upper layers. In the TRL scenario, we overcome the scarcity of data by learning a model on a larger MWE dataset and transferring the knowledge to a resource-poor setting in another language. In both scenarios, the resulting models achieved higher performance compared to standard neural approaches
What can we learn from Semantic Tagging?
We investigate the effects of multi-task learning using the recently
introduced task of semantic tagging. We employ semantic tagging as an auxiliary
task for three different NLP tasks: part-of-speech tagging, Universal
Dependency parsing, and Natural Language Inference. We compare full neural
network sharing, partial neural network sharing, and what we term the learning
what to share setting where negative transfer between tasks is less likely. Our
findings show considerable improvements for all tasks, particularly in the
learning what to share setting, which shows consistent gains across all tasks.Comment: 9 pages with references and appendixes. EMNLP 2018 camera read
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