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研究本体中的隐性知识及其在解剖学领域的应用。

Investigating implicit knowledge in ontologies with application to the anatomical domain.

作者信息

Zhang S, Bodenreider O

机构信息

U.S. National Library of Medicine, 8600 Rockville Pike, MS 43, Bethesda, Maryland 20894, USA.

出版信息

Pac Symp Biocomput. 2004:250-61. doi: 10.1142/9789812704856_0024.

Abstract

Knowledge in biomedical ontologies can be explicitly represented (often by means of semantic relations), but may also be implicit, i.e., embedded in the concept names and inferable from various combinations of semantic relations. This paper investigates implicit knowledge in two ontologies of anatomy: the Foundational Model of Anatomy and GALEN. The methods consist of extracting the knowledge explicitly represented, acquiring the implicit knowledge through augmentation and inference techniques, and identifying the origin of each semantic relation. The number of relations (12 million in FMA and 4.6 million in GALEN), broken down by source, is presented. Major findings include: each technique provides specific relations; and many relations can be generated by more than one technique. The application of these findings to ontology auditing, validation, and maintenance is discussed, as well as the application to ontology integration.

摘要

生物医学本体中的知识可以被明确地表示(通常通过语义关系),但也可能是隐含的,即嵌入在概念名称中,并可从语义关系的各种组合中推断出来。本文研究了解剖学的两个本体中的隐含知识:解剖学基础模型和盖伦模型。方法包括提取明确表示的知识,通过扩充和推理技术获取隐含知识,并确定每个语义关系的来源。按来源分类列出了关系数量(解剖学基础模型中有1200万条,盖伦模型中有460万条)。主要发现包括:每种技术都提供特定的关系;许多关系可以由多种技术生成。讨论了这些发现本体审核、验证和维护中的应用,以及在本体集成中的应用。

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