变形金刚与生物医学背景知识的表示

IF 3.7 2区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Computational Linguistics Pub Date : 2022-02-04 DOI:10.1162/coli_a_00462

Oskar Wysocki, Zili Zhou, Paul O'Regan, D. Ferreira, M. Wysocka, Dónal Landers, Andr'e Freitas Department of Computer Science, The University of Manchester, digital Experimental Cancer Medicine Team, Cancer Biomarker Centre, Cruk Manchester Institute, U. Manchester, Idiap Research Institute

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引用次数: 6

摘要

专门的基于变压器的模型(如BioBERT和BioMegatron)适用于基于公开可用的生物医学数据库的生物医学领域。因此，它们具有编码大规模生物知识的潜力。我们研究了这些模型中生物学知识的编码和表示，以及它在支持癌症精准医学推理方面的潜在效用，即基因组改变的临床意义的解释。我们比较了不同变压器基线的性能;我们使用探测来确定不同实体编码的一致性;我们使用聚类方法来比较和对比基因、变异、药物和疾病的嵌入的内部特性。我们表明，这些模型确实编码了生物学知识，尽管其中一些在特定任务的微调中丢失了。最后，我们分析了模型在数据集中的偏差和不平衡方面的表现。

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Transformers and the Representation of Biomedical Background Knowledge

Specialized transformers-based models (such as BioBERT and BioMegatron) are adapted for the biomedical domain based on publicly available biomedical corpora. As such, they have the potential to encode large-scale biological knowledge. We investigate the encoding and representation of biological knowledge in these models, and its potential utility to support inference in cancer precision medicine—namely, the interpretation of the clinical significance of genomic alterations. We compare the performance of different transformer baselines; we use probing to determine the consistency of encodings for distinct entities; and we use clustering methods to compare and contrast the internal properties of the embeddings for genes, variants, drugs, and diseases. We show that these models do indeed encode biological knowledge, although some of this is lost in fine-tuning for specific tasks. Finally, we analyze how the models behave with regard to biases and imbalances in the dataset.

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来源期刊

Computational Linguistics 工程技术-计算机：跨学科应用

CiteScore

15.80

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Computational Linguistics, the longest-running publication dedicated solely to the computational and mathematical aspects of language and the design of natural language processing systems, provides university and industry linguists, computational linguists, AI and machine learning researchers, cognitive scientists, speech specialists, and philosophers with the latest insights into the computational aspects of language research.