Causality extraction based on self-attentive BiLSTM-CRF with transferred embeddings

•A novel causality tagging scheme has been proposed to serve the causality extraction.•Transferred embeddings dramatically alleviate the problem of data insufficiency.•The self-attention mechanism can capture long-range dependencies between causalities.•Experimental results show that the proposed me...

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Bibliographic Details
Published in:Neurocomputing (Amsterdam) 2021-01, Vol.423, p.207-219
Main Authors: Li, Zhaoning, Li, Qi, Zou, Xiaotian, Ren, Jiangtao
Format: Article
Language:English
Subjects:
BiLSTM-CRF
Causality extraction
Flair embeddings
Self-attention
Sequence labeling
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Summary:•A novel causality tagging scheme has been proposed to serve the causality extraction.•Transferred embeddings dramatically alleviate the problem of data insufficiency.•The self-attention mechanism can capture long-range dependencies between causalities.•Experimental results show that the proposed method outperforms other baselines. Causality extraction from natural language texts is a challenging open problem in artificial intelligence. Existing methods utilize patterns, constraints, and machine learning techniques to extract causality, heavily depending on domain knowledge and requiring considerable human effort and time for feature engineering. In this paper, we formulate causality extraction as a sequence labeling problem based on a novel causality tagging scheme. On this basis, we propose a neural causality extractor with the BiLSTM-CRF model as the backbone, named SCITE (Self-attentive BiLSTM-CRF wIth Transferred Embeddings), which can directly extract cause and effect without extracting candidate causal pairs and identifying their relations separately. To address the problem of data insufficiency, we transfer contextual string embeddings, also known as Flair embeddings, which are trained on a large corpus in our task. In addition, to improve the performance of causality extraction, we introduce a multihead self-attention mechanism into SCITE to learn the dependencies between causal words. We evaluate our method on a public dataset, and experimental results demonstrate that our method achieves significant and consistent improvement compared to baselines.
ISSN:0925-2312
1872-8286
DOI:10.1016/j.neucom.2020.08.078