增强链接预测的社区知识图谱抽象:对 PubMed 知识图谱的研究

IF 4 2区 医学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Journal of Biomedical Informatics Pub Date : 2024-09-10 DOI:10.1016/j.jbi.2024.104725
Yang Zhao , Danushka Bollegala , Shunsuke Hirose , Yingzi Jin , Tomotake Kozu
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引用次数: 0

摘要

目标:随着生物医学领域新知识的快速产生,现有的生物医学知识图谱(KG)无法及时进行人工更新。自然语言处理(NLP)领域的前人已经利用链接预测来推断通用知识图谱中缺失的知识。受此启发,我们提议将链接预测应用于现有的生物医学知识图谱,以推断缺失的知识。虽然知识图谱嵌入(KGE)方法在链接预测任务中很有效,但它们在捕捉具有特定属性的实体社区之间的关系方面能力较弱(Fanourakis et al.为了对抽象后的 CKG 进行链接预测,我们提出了一种扩展方法,通过将 PKG 中的信息链接到抽象后的 CKG 来扩展现有的 KGE 模型。通过使用六个著名的 KGE 模型,证明了这种扩展方法的适用性:TransE、TransH、DistMult、ComplEx、SimplE 和 RotatE。评估指标包括平均排名(MR)、平均互易排名(MRR)和点击率@k,用于评估链接预测性能。此外,我们还提出了一个回溯过程,将 CKG 链接预测结果追溯到 PKG 尺度,以便进一步比较。在这些抽象 CKG 中进行链接预测的结果表明,我们提出的扩展可以改进现有的 KGE 方法,在它们的 CKG 中,前 10 名的准确率分别为:TransE 0.69(0.5)、TransH 0.7(0.54)、DistMult 0.67(0.6)、ComplEx 0.73(0.57)、SimplE 0.73(0.63)和 RotatE 0.85(0.76)。结论:本研究提出了从 PKG 抽象 CKG 的新见解。该扩展方法提高了现有 KGE 方法的性能,并具有适用性。作为一个有趣的未来扩展,我们计划对新引入 PKG 的实体进行链接预测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Community knowledge graph abstraction for enhanced link prediction: A study on PubMed knowledge graph

Objective:

As new knowledge is produced at a rapid pace in the biomedical field, existing biomedical Knowledge Graphs (KGs) cannot be manually updated in a timely manner. Previous work in Natural Language Processing (NLP) has leveraged link prediction to infer the missing knowledge in general-purpose KGs. Inspired by this, we propose to apply link prediction to existing biomedical KGs to infer missing knowledge. Although Knowledge Graph Embedding (KGE) methods are effective in link prediction tasks, they are less capable of capturing relations between communities of entities with specific attributes (Fanourakis et al., 2023).

Methods:

To address this challenge, we proposed an entity distance-based method for abstracting a Community Knowledge Graph (CKG) from a simplified version of the pre-existing PubMed Knowledge Graph (PKG) (Xu et al., 2020). For link prediction on the abstracted CKG, we proposed an extension approach for the existing KGE models by linking the information in the PKG to the abstracted CKG. The applicability of this extension was proved by employing six well-known KGE models: TransE, TransH, DistMult, ComplEx, SimplE, and RotatE. Evaluation metrics including Mean Rank (MR), Mean Reciprocal Rank (MRR), and Hits@k were used to assess the link prediction performance. In addition, we presented a backtracking process that traces the results of CKG link prediction back to the PKG scale for further comparison.

Results:

Six different CKGs were abstracted from the PKG by using embeddings of the six KGE methods. The results of link prediction in these abstracted CKGs indicate that our proposed extension can improve the existing KGE methods, achieving a top-10 accuracy of 0.69 compared to 0.5 for TransE, 0.7 compared to 0.54 for TransH, 0.67 compared to 0.6 for DistMult, 0.73 compared to 0.57 for ComplEx, 0.73 compared to 0.63 for SimplE, and 0.85 compared to 0.76 for RotatE on their CKGs, respectively. These improved performances also highlight the wide applicability of the extension approach.

Conclusion:

This study proposed novel insights into abstracting CKGs from the PKG. The extension approach indicated enhanced performance of the existing KGE methods and has applicability. As an interesting future extension, we plan to conduct link prediction for entities that are newly introduced to the PKG.

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来源期刊
Journal of Biomedical Informatics
Journal of Biomedical Informatics 医学-计算机:跨学科应用
CiteScore
8.90
自引率
6.70%
发文量
243
审稿时长
32 days
期刊介绍: The Journal of Biomedical Informatics reflects a commitment to high-quality original research papers, reviews, and commentaries in the area of biomedical informatics methodology. Although we publish articles motivated by applications in the biomedical sciences (for example, clinical medicine, health care, population health, and translational bioinformatics), the journal emphasizes reports of new methodologies and techniques that have general applicability and that form the basis for the evolving science of biomedical informatics. Articles on medical devices; evaluations of implemented systems (including clinical trials of information technologies); or papers that provide insight into a biological process, a specific disease, or treatment options would generally be more suitable for publication in other venues. Papers on applications of signal processing and image analysis are often more suitable for biomedical engineering journals or other informatics journals, although we do publish papers that emphasize the information management and knowledge representation/modeling issues that arise in the storage and use of biological signals and images. System descriptions are welcome if they illustrate and substantiate the underlying methodology that is the principal focus of the report and an effort is made to address the generalizability and/or range of application of that methodology. Note also that, given the international nature of JBI, papers that deal with specific languages other than English, or with country-specific health systems or approaches, are acceptable for JBI only if they offer generalizable lessons that are relevant to the broad JBI readership, regardless of their country, language, culture, or health system.
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