English

On2Vec: Embedding-based Relation Prediction for Ontology Population

Artificial Intelligence 2018-09-10 v1 Information Retrieval

Abstract

Populating ontology graphs represents a long-standing problem for the Semantic Web community. Recent advances in translation-based graph embedding methods for populating instance-level knowledge graphs lead to promising new approaching for the ontology population problem. However, unlike instance-level graphs, the majority of relation facts in ontology graphs come with comprehensive semantic relations, which often include the properties of transitivity and symmetry, as well as hierarchical relations. These comprehensive relations are often too complex for existing graph embedding methods, and direct application of such methods is not feasible. Hence, we propose On2Vec, a novel translation-based graph embedding method for ontology population. On2Vec integrates two model components that effectively characterize comprehensive relation facts in ontology graphs. The first is the Component-specific Model that encodes concepts and relations into low-dimensional embedding spaces without a loss of relational properties; the second is the Hierarchy Model that performs focused learning of hierarchical relation facts. Experiments on several well-known ontology graphs demonstrate the promising capabilities of On2Vec in predicting and verifying new relation facts. These promising results also make possible significant improvements in related methods.

Keywords

Cite

@article{arxiv.1809.02382,
  title  = {On2Vec: Embedding-based Relation Prediction for Ontology Population},
  author = {Muhao Chen and Yingtao Tian and Xuelu Chen and Zijun Xue and Carlo Zaniolo},
  journal= {arXiv preprint arXiv:1809.02382},
  year   = {2018}
}

Comments

SDM-18. 9 pages, 3 figures

R2 v1 2026-06-23T03:57:44.728Z