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An experimental ontology server for an information grid environment. (English) Zbl 1113.68430

Summary: Semantic web and grid technologies offer a promising approach to facilitate semantic information retrieval based on heterogeneous document repositories. In this paper the authors describe the design and implementation of an Ontology Server (OS) component to be used in a distributed contents management grid system. Such a system could be used to build collection document repositories, mutually interoperable at the semantic level. From the contents point of view, the distributed system is built as a collection of multimedia documents repository nodes glued together by an OS. A set of methodologies and tools to organize the knowledge space around the notion of contents community is developed, where each content provider will publish a set of ontologies to collect metadata information organized and published through a knowledge community, built on top of the OS. These methodologies were deployed while setting up a prototype to connect about 20 museums in the city of Naples (Italy).

MSC:

68T05 Learning and adaptive systems in artificial intelligence
68M10 Network design and communication in computer systems
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[1] J. C. Arpirez, O. Corcho, A. Fernández–López, WebODE a Scalable Ontological Engineering Workbench, in First International Conference on Knowledge Capture (K–CAP 2001), Victoria, Canada, October (2001).
[2] S. Bechhofer, I. Horrocks, C. Goble , R. Stevens, OilEd: Reason–able Ontology for the Semantic Web, in Proceeding of KI2001, Joint German/Austrian Conference on Artificial Intelligence, Vol. 2174, Vienna, Springer Verlag, Berlin LNAI, pp. 396–408 (2001). · Zbl 1007.68719
[3] T. Berners-Lee, WWW: Past, Present, and Future, IEEE Comput., 29 (1996).
[4] The BIBLINK Core Application Profile, http://www.schemas-forum.org/registry/ biblink/BC-schema.html
[5] D. Brickley, L. Miller, The Friend of a Friend (FOAF) Vocabulary Specification: http://xmlns.com/foaf/0.1/.
[6] J. Broekstra, A. Kampman, F. van Harmelen, Sesame: A generic architecture for a querying rdf and rdf Schema, in The Semantic Web–ISWC 2002, volume 2342 of Lecture Notes in Computer Science, pp. 54–68 (2002). · Zbl 1048.68693
[7] CIMI: Consortium of Museum Intelligence, http://www.cimi.org/
[8] The Dublin Core Metadata Initiative, http://www.purl.org/dc/
[9] J. Davis, C. Lagoze, The Networked Computer Science Technical Report Library, Cornell CS TR96-1595.
[10] Extensible Style Language for Transformation, http://www.w3c.org/Style/XSLT
[11] A. Farquilar, R. Fikes, I. Rice, Ontolingua Server: A Tool for Collaborative Ontology Construction, in 10th Knowledge Acquisition for Knowledge–Based System Workshop, Banff, Canada (1996).
[12] I. Foster, C. Kesselman, S. Tuecke, The Open Grid Service Architecture, in The GRID 2: Blueprint for a New Computing Infrastructure, I. Foster, C. Kesselman, (ed.), Morgan Kauffman, Los Altos, CA (2004).
[13] The Gene Ontology Consortium. Creating the Gene Ontology Resource: Design and Implementation, Genome Res., 11, 1425–1433 (2001).
[14] J. Golbeck, G. Fragoso, F. Hartel, J. Hendler, B. Parsia, J. Oberthaler, The National Cancer Institue’s Thesaurus and Ontology, J Web Semantics, 1(1) (2003).
[15] T. R. Gruber, Toward Principles for the Design of Ontologies Used for Knowledge Sharing, Presented at the Padua workshop on Formal Ontology (March 1993).
[16] Lassila O., Swick R., Resource Description Framework (RDF) Model and Syntax, World Wide Consortium Working Draft.
[17] ICOM/CIDOC Documentation Standard Group, Revised Definition of the CIDOC Conceptual Reference Model, (1999). http://cidoc.ics.forth.gr/
[18] HP Labs Semantic Web Research, Jena-A Semantic Web Framework for Java, (2004). http://www.hpl.hp.com/semweb/
[19] I. Horrocks, S. Tessaris, Querying the Semantic Web: a Formal Approach. in the 1st International Semantic Web Conference (ISWC2002), Sardinia, Italy, (2002). · Zbl 1048.68782
[20] C. Lagoze, E. Shaw, J.R. Davis, D.B. Krafft, Dienst: Implementation Reference Manual, May 5, (1995).
[21] D. B. Lenat, Cyc: A large–Scale Investment in Knowledge Infrastructure, Commun. ACM 38, (11), (1995).
[22] M. ango Furnari, A. Aiello, V. Caputo, V. Barone, Ontology Server Protocol Specification, ICIB TR-12/03. · Zbl 1113.68430
[23] M. Mango Furnari, A. Aiello, A. Massarotti, ezXML4OWL: an easy XML for OWL, ICIB TR-06/04.
[24] D. McGuinness, F. van Harmelen, (eds)., OWL Web Ontology Language Overview, (2003).http://www.w3.org/TR/2003/WD-owl-features-20030331/
[25] Open Archives Initiative, http://www.openarchives.org.
[26] OWL Web Ontology Language Overview, http://www.w3.org/TR/2003/PR-owl- features-20031215/.
[27] A. Pease, I. Niles, J. Li, Suggested Upper Merged Ontology: A Large Ontology for the Semantic Web and its Applications, in the Working Notes of the AAAI–2002 Workshop on Ontologies and the Semantic Web, Edmonton, Canada (2002).
[28] http://www.postgresql.org/
[29] http://protege.stanford.edu
[30] http://www.openrdf.org/doc/sesame/users/ch06.html
[31] A. L. Rector, A. Gangemi, E. Galeazzi, A. J. Glowinski, A. Rossi–Mori, The GALEN Model Schemata for Anatomy: Twoards a re–usable Application–Independent model of Medical concepts, in Published in P. Barahona, M. Veloso, J. Bryant (eds), Proceedings of Medical Informatics in Europe MIE 94, pp. 229–233,(1994).
[32] http://www.openrdf.org/documentation.jsp
[33] Y. Sure, M. Erdmann, I. Angele, S. Staab, R. Studer, D. Wenke, OntoEdit: Collaborative Ontology Development for the Semantic Web, in International Semantic Web Conference (ISWC02), Sardinia, Italy, LNCS 2342, pp. 221–235 (2002). · Zbl 1048.68918
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