Inproceedings3931
Leveraging Literals for Knowledge Graph Embeddings
Leveraging Literals for Knowledge Graph Embeddings
Published: 2021
November
Herausgeber: Valentina Tamma, Miriam Fernandez, María Poveda-Villalón
Buchtitel: Proceedings of the Doctoral Consortium at ISWC 2021 co-located with 20th International Semantic Web Conference (ISWC 2021)
Ausgabe: 3005
Seiten: 9-16
Verlag: CEUR Workshop Proceedings
Erscheinungsort: New York, United States (virtually hosted)
Organisation: Doctoral Consortium at ISWC 2021
Nicht-referierte Veröffentlichung
BibTeX
Kurzfassung
Nowadays, Knowledge Graphs (KGs) have become invaluable for various applications such as named entity recognition, entity linking, question answering. However, there is a huge computational and storage cost associated with these KG-based applications. Therefore, there arises the necessity of transforming the high dimensional KGs into low dimensional vector spaces, i.e., learning representations for the KGs. Since a KG represents facts in the form of interrelations between entities and also using attributes of entities, the semantics present in both forms should be preserved while transforming the KG into a vector space. Hence, the main focus of this thesis is to deal with the multimodality and multilinguality of literals when utilizing them for the representation learning of KGs. The other task is to extract benchmark datasets with a high level of difficulty for tasks such as link prediction and triple classification. These datasets could be used for evaluating both kind of KG Embeddings, those using literals and those which do not include literals.
ISSN: 1613-0073
Download: Media:Leveraging_Literals_for_Knowledge_Graph_Embeddings.pdf
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Information Service Engineering