Authors: Visit Hirankitti, Vuong Tran Xuan

Abstract:

Meta-reasoning is essential for multi-agent communication. In this paper we propose a framework of multi-agent communication in which agents employ meta-reasoning to reason with agent and ontology locations in order to communicate semantic information with other agents on the semantic web and also reason with multiple distributed ontologies. We shall argue that multi-agent communication of Semantic Web information cannot be realized without the need to reason with agent and ontology locations. This is because for an agent to be able to communicate with another agent, it must know where and how to send a message to that agent. Similarly, for an agent to be able to reason with an external semantic web ontology, it must know where and how to access to that ontology. The agent framework and its communication mechanism are formulated entirely in meta-logic.

Keywords: Semantic Web, agent communication, ontologies.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1058623

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1609

References:

[1] Hirankitti, V., and Tran, X. V. A Meta-logical Approach for Reasoning with Semantic Web Ontologies. In proc. of the 4th IEEE International Conference on Computer Sciences: Research, Innovation & Vision for the Future, February 2006, Viet Nam, pp. 228-235.
[2] Hirankitti, V., and Tran, X. V. Meta-reasoning with Multiple Distributed Ontologies on the Semantic Web. In proc. of the 6th International Conference on Intelligent Technologies, Thailand, December 2005, pp. 301-309.
[3] Hirankitti, V., and Tran, X. V. A Meta-logical Approach for Multi-agent Communication of the Semantic Web Information. In proc. of the 16th International Conference on Applications of Declarative Programming and Knowledge Management, Japan, October 2005, pp. 7-16.
[4] Hirankitti, V., and Tran, X. V. Semantic Web Agent Communication Capable of Reasoning with Ontology and Agent Locations. In proc. of the 8th International Conference on Cybernetics, Informatics, and Systemics, Poland, December 2005, pp. 98-104.
[5] Serafinil, L., and Tamilin, A. DRAGO: Distributed Reasoning Architecture for the Semantic Web. In proc. of the 2nd European Semantic Web Conference. LNCS, Vol. 3532, Springer-Verlag, pp. 361-376, 2005.
[6] Zou, Y., Finin, T., Ding, L., Chen, H., and Pan, R. Using Semantic Web technology in Multi-Agent systems: a case study in the TAGA Trading agent environment. In proc. of the 5th International Conference on Electronic Commerce. ACM Press, pp. 95-101, 2003.
[7] Grimnes, G. A., Chalmers, S., Edwards, P., and Preece, A. GraniteNights -A Multi-agent Visit Scheduler Utilising Semantic Web Technology. In proc. of the 7th Cooperative Information Agents. LNCS, Vol. 2782, Springer-Verlag, pp. 137-151, 2003.
[8] Payne, T. R., Singh, R., and Sycara, K. Processing Schedules using Distributed Ontologies on the Semantic Web. In proc. of the International Workshop on Web Services, E-Business, and the Semantic Web. LNCS, Vol. 2512, Springer-Verlag, pp. 203-212, 2002.
[9] Kowalski, R. A., and Kim, J. S. A Metalogic Programming Approach to Multi-agent Knowledge and Belief. In AI and Mathematical Theory of Computation, 1991, pp. 231-246.