Semantic cooperation and knowledge reuse by using autonomous ontologies

Loading...
Thumbnail Image
File version
Author(s)
Zhao, Yuting
Wang, Kewen
Topor, Rodney
Pan, Jeff Z
Giunchiglia, Fausto
Griffith University Author(s)
Primary Supervisor
Other Supervisors
Editor(s)

Aberer, K

Choi, KS

Noy, N

Allemang, D

Lee, KI

Nixon, L

Golbeck, J

Mika, P

Maynard, D

Mizoguchi, R

Schreiber, G

CudreMauroux, P

Date
2007
Size

250032 bytes

File type(s)

application/pdf

Location

Busan, SOUTH KOREA

License
Abstract

Several proposals have been put forward to support distributed agent cooperation in the SemanticWeb, by allowing concepts and roles in one ontology be reused in another ontology. In general, these proposals reduce the autonomy of each ontology by defining the semantics of the ontology to depend on the semantics of the other ontologies. We propose a new framework for managing autonomy in a set of cooperating ontologies (or ontology space). In this framework, each language entity (concept/ role/individual) in an ontology may have its meaning assigned either locally with respect to the semantics of its own ontology, to preserve the autonomy of the ontology, or globally with respect to the semantics of any neighbouring ontology in which it is defined, thus enabling semantic cooperation between multiple ontologies. In this way, each ontology has a "subjective semantics" based on local interpretation and a "foreign semantics" based on semantic binding to neighbouring ontologies. We study the properties of these two semantics and describe the conditions under which entailment and satisfiability are preserved. We also introduce two reasoning mechanisms under this framework: "cautious reasoning" and "brave reasoning". Cautious reasoning is done with respect to a local ontology and its neighbours (those ontologies in which its entities are defined); brave reasoning is done with respect to the transitive closure of this relationship. This framework is independent of ontology languages. As a case study, for Description Logic ALCN we present two tableau-based algorithms for performing each form of reasonings and prove their correctness.

Journal Title
Conference Title

SEMANTIC WEB, PROCEEDINGS

Book Title
Edition
Volume

4825

Issue
Thesis Type
Degree Program
School
DOI
Patent number
Funder(s)
Grant identifier(s)
Rights Statement
Rights Statement

© 2007 Springer. This is the author-manuscript version of this paper. Reproduced in accordance with the copyright policy of the publisher. The original publication is available at www.springerlink.com.

Item Access Status
Note
Access the data
Related item(s)
Subject

Information and computing sciences

Persistent link to this record
Citation