Browse > Article
http://dx.doi.org/10.3745/JIPS.2009.5.1.011

An Efficient Web Ontology Storage Considering Hierarchical Knowledge for Jena-based Applications  

Jeong, Dong-Won (Dept. of Informatics & Statistics, Kunsan National University)
Shin, Hee-Young (Dept. of Computer Engineering Science & Engineering, Korea University)
Baik, Doo-Kwon (Dept. of Computer Engineering Science & Engineering, Korea University)
Jeong, Young-Sik (Dept. of Computer Engineering, Wonkwang University)
Publication Information
Journal of Information Processing Systems / v.5, no.1, 2009 , pp. 11-18 More about this Journal
Abstract
As well as providing various APIs for the development of inference engines and storage models, Jena is widely used in the development of systems or tools related with Web ontology management. However, Jena still has several problems with regard to the development of real applications, one of the most important being that its query processing performance is unacceptable. This paper proposes a storage model to improve the query processing performance of the original Jena storage. The proposed storage model semantically classifies OWL elements, and stores an ontology in separately classified tables according to the classification. In particular, the hierarchical knowledge is managed, which can make the processing performance of inferable queries enhanced and stores information. It enhances the query processing performance by using hierarchical knowledge. For this paper an experimental evaluation was conducted, the results of which showed that the proposed storage model provides a improved performance compared with Jena.
Keywords
Ontology; Jena; OWL; Ontology; Storage; Hierarchical Structure;
Citations & Related Records
연도 인용수 순위
  • Reference
1 H. Wang and C. Wang, Ontologies for universal information systems, Journal of Information Science 21(3) 1 (1995), pp. 232-239   DOI
2 H.S. Kim, H.S. Cha, J.S. Kim, and J.H. Son, Development of an Efficient OWL Document Management System for Embedded Applications, Springer-Verlag, Lecture Notes in Computer Science 3597, (2005), pp. 75-84   DOI   ScienceOn
3 M. Dean and G. Schreiber (eds.), OWL Web Ontology Language Reference (2004)
4 D. Connolly, F.V. Harmelen, I. Horrocks, D.L. McGuinness, P.F. Patel-Schneider, and L.A. Stein, DAML+OIL Reference Description W3C Note, 2001. Available at: http://www.w3.org/TR/daml+oil-reference (accessed 23 January 2008)
5 T. Berners-Lee, J. Hendler, and O. Lassila, The Semantic Web, Scientific American Magazine (2001). Available at: http://www.sciam.com/ (accessed 23 January 2008)
6 D. Beckett, RDF/XML Syntax Specification, 2004
7 D. Brickley and R.V. Guha (eds.), RDF Vocabulary Description Language 1.0: RDF Schema, 2004
8 I.C. Hsu and S.J. Kao, An OWL-based extensible transcoding system for mobile multi-devices, Journal of Information Science, 31(3) 6 (2005), pp.178-195   DOI
9 L. Liao, K. Xu, and S. Liao, Constructing intelligent and open mobile commerce using a semantic web approach, Journal of Information Science, 31(5) 10 (2005), pp. 407-419   DOI
10 Y. Guo, Z. Pan, and J. Heflin, LUBM: A Benchmark for OWL Knowledge Base Systems, Journal of Web Semantics, 3(2) (2005), pp. 158-182   DOI   ScienceOn
11 D.W. Jeong, M.H. Choi, Y.S. Jeon, Y.H. Han, Y.S. Jeong, and S.K. Han, A Novel Memory-Oriented OWL Storage System, Springer-Verlag, Lecture Notes in Computer Science, 4331 (2006), pp. 542-549   DOI   ScienceOn
12 D.W. Jeong, M.H. Choi, Y.S. Jeon, Y.H. Han, L.T. Yang, Y.S. Jeong, and S.K. Han, Persistent Storage System for Efficient Management of OWL Web Ontology, Springer-Verlag, Lecture Notes in Computer Science, 4611 (2007), pp. 1089-1097   DOI   ScienceOn
13 M.J. Park and C.W. Chung, Property-Based OWL Storage Schema in Relational Databases (Unpublished Technical Report, Div. of Computer Science, KAIST, Dec. 2005)
14 L. Han, G. Chen, and L. Xie, AASA: A Method of Automatically Acquiring Semantic Annotations, Journal of Information Science, Vol. 8 (2007), pp.435-450   DOI
15 HP Labs, Jena-A Semantic Web Framework for Java
16 E. Prud'hommeaux and A. Seaborne (eds.), SPARQL Query Language for RDF, 2008
17 Seaborne, RDQL-A Query Language for RDF, 2004
18 Y. Guo, Z. Pan, and J. Heflin, An Evaluation of Knowledge Base Systems for Large OWL Datasets, Springer-Verlag, Lecture Notes in Computer Science, 3298 (2004) pp. 274-288   DOI   ScienceOn
19 Y. Guo, SWAT Projects-the Lehigh University Benchmark (LUBM).