A Novel Algorithm for Multi-Criteria Ontology Merging through Iterative Update of RDF Graph

M. Rudwan, Jean Vincent Fonou-Dombeu
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Abstract

Ontology merging is an important task in ontology engineering to date. However, despite the efforts devoted to ontology merging, the incorporation of relevant features of ontologies such as axioms, individuals and annotations in the output ontologies remains challenging. Consequently, existing ontology-merging solutions produce new ontologies that do not include all the relevant semantic features from the candidate ontologies. To address these limitations, this paper proposes a novel algorithm for multi-criteria ontology merging that automatically builds a new ontology from candidate ontologies by iteratively updating an RDF graph in the memory. The proposed algorithm leverages state-of-the-art Natural Language Processing tools as well as a Machine Learning-based framework to assess the similarities and merge various criteria into the resulting output ontology. The key contribution of the proposed algorithm lies in its ability to merge relevant features from the candidate ontologies to build a more accurate, integrated and cohesive output ontology. The proposed algorithm is tested with five ontologies of different computing domains and evaluated in terms of its asymptotic behavior, quality and computational performance. The experimental results indicate that the proposed algorithm produces output ontologies that meet the integrity, accuracy and cohesion quality criteria better than related studies. This performance demonstrates the effectiveness and superior capabilities of the proposed algorithm. Furthermore, the proposed algorithm enables iterative in-memory update and building of the RDF graph of the resulting output ontology, which enhances the processing speed and improves the computational efficiency, making it an ideal solution for big data applications.
通过迭代更新 RDF 图实现多标准本体合并的新算法
本体合并是本体工程迄今为止的一项重要任务。然而,尽管人们致力于本体合并,但将本体的相关特征(如公理、个体和注释)纳入输出本体仍具有挑战性。因此,现有的本体合并解决方案生成的新本体并不包含候选本体的所有相关语义特征。为了解决这些局限性,本文提出了一种用于多标准本体合并的新型算法,该算法通过迭代更新内存中的 RDF 图,自动从候选本体中构建新本体。该算法利用最先进的自然语言处理工具和基于机器学习的框架来评估相似性,并将各种标准合并到最终输出的本体中。拟议算法的主要贡献在于它能够合并候选本体中的相关特征,从而建立一个更准确、更集成、更有内聚力的输出本体。我们用不同计算领域的五个本体对所提出的算法进行了测试,并对其渐近行为、质量和计算性能进行了评估。实验结果表明,与相关研究相比,拟议算法生成的输出本体更符合完整性、准确性和内聚性质量标准。这一表现证明了所提算法的有效性和卓越能力。此外,所提算法还能对生成的输出本体的 RDF 图进行迭代内存更新和构建,从而提高了处理速度和计算效率,是大数据应用的理想解决方案。
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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