Abstract
In this paper we present an enhancement of our collaborative architecture with Web Services for data access and OWL ontologies to define domain concepts. The original platform is a two-level multi-agent system where communications are made through blackboards. To improve cross-skill collaboration, we enrich shared data with domain ontologies to formally define concepts and enable the reuse of domain knowledges. We also propose to access blackboards via Web Services. In this way we take advantage of standard protocols and allow the integration and the reuse of collaborative services.
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Alonson G, Casati F, Kuno H, and Machiraju V. Web Services: Concepts, Architectures and Applications. Springer-Verlag, 2004.
Dustdar S, Gall H, and Schmidt R. Web services for groupware in distributed and mobile collaboration. In 12th Euromicro Conference on Parallel, Distributed and Network-Based Processing: pp 241–247, 2004.
Da Silva C, Discovery of semantic mappings between semantic resources in a cooperative environment. Ph.D. thesis, University Lyon 1, 2007.
Dutra M, and Ghodous P. A Reasoning Approach for Conflict Dealing in Collaborative Design. Complex Systems Concurrent Engineering: Collaboration, Technology Innovation And Sustaintability, CE2007, 2007; pp 481–488.
Gero JS, Sudweeks F. Artificial Intelligence in Design’02, 2002.
Gero JS. Design prototypes: A knowledge representation schema for design, AI Magazine 11(4): pp 26–36, 1990.
Ghodous P, Martinez M, Hassas S, and Pimont S. Distributed architecture for design activities. International Journal of IT in Architecture, Engineering and Construction. Millpress, 2002.
Kammer PJ. Distributed Groupware and Web Services. In CSCW 2002 Workshop: Network Services for Groupware, New Orleans, LA, 2002.
Li WD, Ong SK, and Nee AYC. Integrated and collaborative Product Development, Technologies and Implementation, World Scientific, 2006.
Olsen GR, Cutkosky M, Tenenbaum J, and Gruber T. Collaborative Engineering based on Knowledge Sharing Agreements, Proc. of the 1994 ASME Database Symposium, 1994.
Orlikowski WJ. Learning from Notes: organizational issues in groupware implementation. In Proceedings of the 1992 ACM conference on Computer-supported cooperative work, pp. 362–369. 1992.
Sriram RD. Distributed and Integrated Collaborative Engineering Design. Savren. ISBN 0-9725064-0-3, 2002.
Stokic D. A new Collaborative Working Environment for Concurrent Engineering in Manufacturing Industry. Leading the web in concurrent engineering: Next Generation Concurrent Engineering, CE2006: pp 120–127. ISSN 0922-6389, 2006.
Tenenbaum J, Gruber T, McGuire J, Weber D, and Olsen GR. SHADE: Technology for Knowledge-Based Collaborative Engineering. Journal of Concurrent Engineering: Applications and Research, 1(3), 1993.
Vandorpe D, Ghodous P. Advances in Concurrent Engineering. In Proceedings of the 7th ISPE International Conference on Concurrent Engineering: Research and Applications, CE2000, 2000.
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Kuhn, O., Dutra, M.L., Ghodous, P., Dusch, T., Collet, P. (2008). Collaborative Architecture Based on Web-Services. In: Curran, R., Chou, SY., Trappey, A. (eds) Collaborative Product and Service Life Cycle Management for a Sustainable World. Advanced Concurrent Engineering. Springer, London. https://doi.org/10.1007/978-1-84800-972-1_6
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DOI: https://doi.org/10.1007/978-1-84800-972-1_6
Publisher Name: Springer, London
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