Parallel sequence tagging for concept recognition

Named Entity Recognition (NER) and Normalisation (NEN) are core components of any text-mining system for biomedical texts. In a traditional concept-recognition pipeline, these tasks are combined in a serial way, which is inherently prone to error propagation from NER to NEN. We propose a parallel ar...

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Bibliographic Details
Published in:BMC bioinformatics 2022-03, Vol.22 (Suppl 1), p.623-623, Article 623
Main Authors: Furrer, Lenz, Cornelius, Joseph, Rinaldi, Fabio
Format: Article
Language:English
Subjects:
Annotations
Calibration
Classifiers
Concept recognition
Crafts
Data Mining
Dictionaries
Genes
Medical research
Medicine, Experimental
Methods
Named entity recognition and normalization
Neural network
Neural networks
Ontology
Propagation
Recognition
Sequence tagging
Tagging
Technology application
Text mining
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Summary:Named Entity Recognition (NER) and Normalisation (NEN) are core components of any text-mining system for biomedical texts. In a traditional concept-recognition pipeline, these tasks are combined in a serial way, which is inherently prone to error propagation from NER to NEN. We propose a parallel architecture, where both NER and NEN are modeled as a sequence-labeling task, operating directly on the source text. We examine different harmonisation strategies for merging the predictions of the two classifiers into a single output sequence. We test our approach on the recent Version 4 of the CRAFT corpus. In all 20 annotation sets of the concept-annotation task, our system outperforms the pipeline system reported as a baseline in the CRAFT shared task, a competition of the BioNLP Open Shared Tasks 2019. We further refine the systems from the shared task by optimising the harmonisation strategy separately for each annotation set. Our analysis shows that the strengths of the two classifiers can be combined in a fruitful way. However, prediction harmonisation requires individual calibration on a development set for each annotation set. This allows achieving a good trade-off between established knowledge (training set) and novel information (unseen concepts).
ISSN:1471-2105
1471-2105
DOI:10.1186/s12859-021-04511-y