Online Version - Last Updated - 20 Jan 2012 |
 |
| Home |
| |
| Procedures and Resources for Authors |
|
| Information and Resources for Volume Editors |
| |
| Orders and Subscriptions |
| |
| Published Articles |
|
| Upcoming Volumes |
| |
| Contact Us |
| |
| Useful External Links |
| |
| CRPIT Site Search |
Towards Scalable Ontology Engineering Patterns: Lessons Learned from an Experiment based on W3Cs Part-whole Guidelines
Lefort, L., Taylor, K. and Ratcliffe, D.
This paper presents an empirical evaluation of description logic reasoners to support the selection of scalable ontology engineering patterns for TBox reasoning. Our main objective is to define the rationale behind the design decisions required for the generation of large ontologies with XSLT-based tools. We discuss here the outcomes of an experiment focusing on aircraft components and parts for which we have implemented the ontology design guidelines for part-whole relationships published by W3C's Semantic Web best practices working group. We have worked with the following reasoners, being the best state-of-the-art currently available: FaCT++, RACER, Pellet and CEL. We found considerable variation in reasoner performance and have attempted to characterise the factors that distinguish the reasoners to enable a bestpractice design style to be successfully applied for the generation of very large ontologies.
Cite as: Lefort, L., Taylor, K. and Ratcliffe, D. (2006). Towards Scalable Ontology Engineering Patterns: Lessons Learned from an Experiment based on W3Cs Part-whole Guidelines. In Proc. Second Australasian Ontology Workshop (AOW 2006), Hobart, Australia. CRPIT, 72. Orgun, M. A. and Meyer, T., Eds. ACS. 31-40.
(from crpit.com)
(local if available)
