An enhanced domain ontology model of database course in computing curricula

N. Rahayu, R. Ferdiana, S. Kusumawardani
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引用次数: 0

Abstract

The ACM/IEEE Computing Curricula 2020 includes the study of relational databases in four of its six disciplines. However, a domain ontology model of multidisciplinary database course does not exist. Therefore, the current study aims to build a domain ontology model for the multidisciplinary database course. The research process comprises three phases: a review of database course contents based on the ACM/IEEE Computing Curricula 2020, a literature review of relevant domain ontology models, and a design research phase using the NeOn methodology framework. The ontology building involves the ontology reuse and reengineering of existing models, along with the construction of some classes from a non-ontological resource. The approach to ontology reuse and reengineering demonstrates ontology reusability. The final domain ontology model is then evaluated using two ontology syntactic metrics: Relationship Richness and Information Richness. These metrics reflect the diversity of relationships and the breadth of knowledge in the model, respectively. In conclusion, the current research contributes to the Computing Curricula by providing an ontology model for a multidisciplinary database course. The model, developed through ontology reuse and reengineering and the integration of non-ontological resources, exhibits more diverse relationships and represents a broader range of knowledge.
计算机课程中数据库课程的增强型领域本体模型
ACM/IEEE Computing Curricula 2020 的六门学科中有四门包含关系数据库学习。然而,多学科数据库课程的领域本体模型并不存在。因此,本研究旨在为多学科数据库课程建立一个领域本体模型。研究过程包括三个阶段:基于 ACM/IEEE Computing Curricula 2020 的数据库课程内容回顾、相关领域本体模型的文献回顾以及使用 NeOn 方法框架的设计研究阶段。本体构建包括对现有模型的本体重用和再造,以及从非本体资源中构建一些类。本体重用和再设计方法展示了本体的可重用性。然后使用两个本体句法指标对最终的领域本体模型进行评估:关系丰富度和信息丰富度。这些指标分别反映了模型中关系的多样性和知识的广度。总之,当前的研究通过为多学科数据库课程提供本体模型,为计算机课程做出了贡献。该模型是通过本体重用和再造以及非本体资源整合而开发的,它展示了更多样化的关系,代表了更广泛的知识。
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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