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MINTE: Semantically integrating RDF graphs

: Collarana, D.; Galkin, M.; Traverso-Ribón, I.; Vidal, M.-E.; Lange, C.; Auer, S.


Association for Computing Machinery -ACM-:
WIMS 2017, 7th International Conference on Web Intelligence, Mining and Semantics. Proceedings : Amantea, Italy, June 19 - 22, 2017
New York: ACM, 2017
ISBN: 978-1-4503-5225-3
Art. 22
International Conference on Web Intelligence, Mining and Semantics (WIMS) <7, 2017, Amantea>
Conference Paper
Fraunhofer IAIS ()

The nature of the RDF data model allows for numerous descriptions of the same entity. For example, different RDF vocabularies may be utilized to describe pharmacogenomic data, and the same drug or gene is represented by different RDF graphs in DBpedia or Drugbank. To provide a unified representation of the same real-world entity, RDF graphs need to be semantically integrated. Semantic integration requires the management of knowledge encoded in RDF vocabularies to determine the relatedness of different RDF representations of the same entity, e.g., axiomatic definition of vocabulary properties or resource equivalences. We devise MINTE, an integration technique that relies on both: knowledge stated in RDF vocabularies and semantic similarity measures to merge semantically equivalent RDF graphs, i.e., graphs corresponding to the same real-world entity. MINTE follows a two-fold approach to solve the problem of integrating RDF graphs. In the first step, MINTE implements a 1-1 weighted perfect matching algorithm to identify semantically equivalent RDF entities in different graphs. Then, MINTE relies on different fusion policies to merge triples from these semantically equivalent RDF entities. We empirically evaluate the performance of MINTE on data from DBpedia, Wikidata, and Drugbank. The experimental results suggest that MINTE is able to accurately integrate semantically equivalent RDF graphs.