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- Title
Weakly supervised learning of information structure of scientific abstracts—is it accurate enough to benefit real-world tasks in biomedicine?
- Authors
Guo, Yufan; Korhonen, Anna; Silins, Ilona; Stenius, Ulla
- Abstract
Motivation: Many practical tasks in biomedicine require accessing specific types of information in scientific literature; e.g. information about the methods, results or conclusions of the study in question. Several approaches have been developed to identify such information in scientific journal articles. The best of these have yielded promising results and proved useful for biomedical text mining tasks. However, relying on fully supervised machine learning (ml) and a large body of annotated data, existing approaches are expensive to develop and port to different tasks. A potential solution to this problem is to employ weakly supervised learning instead. In this article, we investigate a weakly supervised approach to identifying information structure according to a scheme called Argumentative Zoning (az). We apply four weakly supervised classifiers to biomedical abstracts and evaluate their performance both directly and in a real-life scenario in the context of cancer risk assessment.Results: Our best weakly supervised classifier (based on the combination of active learning and self-training) performs well on the task, outperforming our best supervised classifier: it yields a high accuracy of 81% when just 10% of the labeled data is used for training. When cancer risk assessors are presented with the resulting annotated abstracts, they find relevant information in them significantly faster than when presented with unannotated abstracts. These results suggest that weakly supervised learning could be used to improve the practical usefulness of information structure for real-life tasks in biomedicine.Availability: The annotated dataset, classifiers and the user test for cancer risk assessment are available online at http://www.cl.cam.ac.uk/~yg244/11bioinfo.html.Contact: anna.korhonen@cl.cam.ac.uk
- Subjects
MEDICINE; MEDICAL literature; SCHOLARLY periodicals; PERIODICAL articles; DATA structures; HEALTH risk assessment
- Publication
Bioinformatics, 2011, Vol 27, Issue 22, p3179
- ISSN
1367-4803
- Publication type
Article
- DOI
10.1093/bioinformatics/btr536