Abstract
Heterogeneity is an inherent characteristic of open and distributed environments like the Internet that can hamper Web resources and Web services from successful interoperation. Mediation can be used to resolve these issues, which are critical problems in the Semantic Web. Appropriate technologies for mediation need to cover two aspects: first, techniques for handling the different kinds of heterogeneity that can occur between Web resources, and secondly logical components that connect resources and apply required mediation technique along with invocation and execution facilities. This paper presents an integrated model for mediation on the Semantic Web with special attention to Semantic Web services that is developed around the Web Service Modeling Ontology WSMO. Covering both dimensions, we explain the techniques developed for handling different types of heterogeneity as well as the components and architecture for establishing interoperability on the Semantic Web if not given a priori.
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References
Alexiev, V. et al. Information Integration with Ontologies. Wiley, West Sussex, UK, 2005.
Barros, A. and E. Börger. A Compositional Framework for Service Interaction Patterns and Interaction Flows. Technical Report, 2005.
Berners-Lee, T.; Hendler, J., and Lassila, O. The Semantic Web. In Scientific American, 284(5), 2001.
Berners-Lee, T. Weaving the Web. Harper, San Francisco, USA, 1999.
Börger, E. and Stärk, R. Abstract State Machines. A Method for High-Level System Design and Analysis. Springer, Berlin, Heidelberg, 2003.
Cimpian, E. and Mocan, A. WSMX Process Mediation Based on Choreographies. In Proceedings of the 1st International Workshop on Web Service Choreography and Orchestration for Business Process Management at the BPM 2005, Nancy, France, 2005.
de Bruijn, J. (ed.). The Web Service Modeling Language WSML. WSML Deliverable D16.1 final version 0.2, 2005. available from http://www.wsmo.Org/TR/d16/d16.l/v0.2/.
Fensel, D. and Bussler, C. The Web Service Modeling Framework WSMF. Electronic Commerce Research and Applications, 1(2), 2002.
Fensel. D. and Straatman, R. The Essence of Problem-Solving Methods: Making Assumptions to Gain Efficiency. International Journal of Human-Computer Studies, 48(2):181–215, 1998.
Haller, E. Cimpian, A. Mocan, E. Oren, and C. Bussler. WSMX-A Semantic Service-Oriented Architecture. In Proceedings of the International Conference on Web Service (ICWS 2005), Orlando, Florida, 2005.
Keller, U. et al. Automatic Location of Services. In Proceedings of the 2nd European Semantic Web Conference (ESWC 2005), Crete, Greece, 2005.
Lausen, H. (ed). Functional Description of Web Services. Deliverable D28.1v0.l Oct 20 2005, WSML Working Group. online: http://www.wsmo.org/TR/.
Lausen, H. and Polleres, A. and Roman, D. (eds.). Web Service Modeling Ontology (WSMO). W3C Member Submission 3 June 2005, 2005. online: http://www.w3.org/Submission/WSMO/.
Martin, D. (ed.). OWL-S: Semantic Markup for Web Services. W3C Member Submission 22 November 2004, http://www.w3.org/Submission/OWL-S.
Mocan, A.; Cimpian, E., and Stollberg, M. (eds.). WSMO Mediators. Deliverable D29, 2005. Most recent version at: http://www.wsmo.org/TR/d29/.
Mocan, A. (ed.). WSMX Data Mediation. WSMX Working Draft D13.3, 2005. available at: http://www.wsmo.Org/TR/d13/d13.3/v0.2/.
Moran, M. and Mocan, A. Towards Translating between XML and WSML based on mappings between XML Schema and an equivalent WSMO Ontology. In Proc. of the WIW 2005 Workshop on WSMO Implementations, Innsbruck, Austria, 2005.
Noy., N. Semantic Integration: a Survey of Ontology-based Approaches. ACM SIGMOD Record, 33(4):65–70, 2004.
Paolucci, M.; Srinivasan, N., and Sycara, K. Expressing WSMO Mediators in OWL-S. In Proceedings of the workshop on Semantic Web Ser vices: Preparing to meet the world of Business Applications held at ISWC 2004, Hiroshima, Japan.
Papakonstantinou, Y.; Garcia-Molina, H., and Ullman, J. D. MedMaker: A Mediation System Based on Declarative Specifications. In Proceedings of the 12th International Conference on Data Engineering, pages 132–141, 1996.
Scharffe, F. and de Bruijn, J. A Language to Specify Mappings between Ontologies. In Proc. of the Internet Based Systems IEEE Conference (SITIS05), 2005.
Scicluna, J.; Polleres, A., and Roman, D. (eds.). Ontology-based Choreography and Orchestration of WSMO Services. Deliverable D14, 2005. available at: http://www.wsmo.org/TR/d14/.
Stollberg, M.; Cimpian, E., and Fensel, D. Mediating Capabilities with Delta-Relations. In Proceedings of the First International Workshop on Mediation in Semantic Web Services at the 3rd International Conference on Service Oriented Computing (ICSOC 2005), Amsterdam, the Netherlands, 2005.
Stollberg, M. et al. Semantic Web Services — Concepts and Technology. In N. Ide, D. Cristea, and D. Tufis, editors, Language Technology, Ontologies, and the Semantic Web. Kluwer Publishers (to appear), 2006.
Stollberg, M. and Lara, R. (eds.). WSMO Use Case “Virtual Travel Agency”. Deliverable D3.3, 2004, http://www.wsmo.Org/2004/d3/d3.3/v0.1/.
Wiederhold, G. Mediators in the Architecture of Future Information Systems. In Computer, 25(3):38–49, 1994.
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Stollberg, M., Cimpian, E., Mocan, A., Fensel, D. (2006). A Semantic Web Mediation Architecture. In: Koné, M.T., Lemire, D. (eds) Canadian Semantic Web. Semantic Web and Beyond, vol 2. Springer, Boston, MA . https://doi.org/10.1007/978-0-387-34347-1_2
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DOI: https://doi.org/10.1007/978-0-387-34347-1_2
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