S-NER: A Concise and Efficient Span-Based Model for Named Entity Recognition

Named entity recognition (NER) is a task that seeks to recognize entities in raw texts and is a precondition for a series of downstream NLP tasks. Traditionally, prior NER models use the sequence labeling mechanism which requires label dependency captured by the conditional random fields (CRFs). How...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Switzerland), 2022-04, Vol.22 (8), p.2852
Main Authors: Yu, Jie, Ji, Bin, Li, Shasha, Ma, Jun, Liu, Huijun, Xu, Hao
Format: Article
Language:English
Subjects:
BERT
Communication
Computational linguistics
Conditional random fields
Efficiency
Labeling
Labels
Language processing
named entity recognition
Natural language interfaces
Neural networks
Recognition
Semantics
span-based model
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Summary:Named entity recognition (NER) is a task that seeks to recognize entities in raw texts and is a precondition for a series of downstream NLP tasks. Traditionally, prior NER models use the sequence labeling mechanism which requires label dependency captured by the conditional random fields (CRFs). However, these models are prone to cascade label misclassifications since a misclassified label results in incorrect label dependency, and so some following labels may also be misclassified. To address the above issue, we propose S-NER, a span-based NER model. To be specific, S-NER first splits raw texts into text spans and regards them as candidate entities; it then directly obtains the types of spans by conducting entity type classifications on span semantic representations, which eliminates the requirement for label dependency. Moreover, S-NER has a concise neural architecture in which it directly uses BERT as its encoder and a feed-forward network as its decoder. We evaluate S-NER on several benchmark datasets across three domains. Experimental results demonstrate that S-NER consistently outperforms the strongest baselines in terms of F1-score. Extensive analyses further confirm the efficacy of S-NER.
ISSN:1424-8220
1424-8220
DOI:10.3390/s22082852