Exchanges of Knowledge about Product Configurations using XML Topic Map
Authors: Namchul Do, Jihun Cho
Abstract:
Modeling product configurations needs large amounts of knowledge about technical and marketing restrictions on the product. Previous attempts to automate product configurations concentrate on representations and management of the knowledge for specific domains in fixed and isolated computing environments. Since the knowledge about product configurations is subject to continuous change and hard to express, these attempts often failed to efficiently manage and exchange the knowledge in collaborative product development. In this paper, XML Topic Map (XTM) is introduced to represent and exchange the knowledge about product configurations in collaborative product development. A product configuration model based on XTM along with its merger and inference facilities enables configuration engineers in collaborative product development to manage and exchange their knowledge efficiently. A prototype implementation is also presented to demonstrate the proposed model can be applied to engineering information systems to exchange the product configuration knowledge.
Keywords: Knowledge exchange, product configurations, XML topic map.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1073365
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1351References:
[1] V. E. Barker and D. E. O'Connor,"Expert Systems for Configuration at Digital: XCON and beyond," Communications of the ACM, Vol. 32, No 3 pp. 298-318, 1989.
[2] I. Crnkovic, U. Asklund, and A. P. Dahlqvist, Implementing and Integrating Product Data Management and Software Configuration Management. Artech House, 2003.
[3] F. Erens, H. Hegge, F.A. van Veen, and J. C. Wortmann, "Generative bills-of-material: An overview," IFIP Transactions, Integration in Production Management Systems, H.J. Pais and J.C. Wortmann, (eds.), 24-27 August, pp. 93-113, 1992.
[4] T. Soininen, J. Tiihonen, T. Mannisto, and R. Sulonen, "Towards a general ontology of configuration," Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 12, pp. 357-372, 1998.
[5] J. McDermott, "A Rule-Based Configurator of Computer Systems," Artificial Intelligence, Vol. 19, No. pp. 139-88, 1982.
[6] S. Kim, Y. Kwon, K. Ju, and S. Jeong, "Development of the CORBA-based Product Structure and Configuration Management System for Heterogeneous Distributed Environment," (in Korean) IE Interfaces, Vol. 13, No. 4, pp. 572-583, 2000.
[7] M. P.M. Leitgeb and E.S.M Pernler, Knowledge-Based Systems for Configuration - A Survey. Authors Thesis, Swedish Institute of Computer Science, 1995.
[8] D. Sabin and R Weigel, "Product Configuration Framework - A Survey," IEEE Intelligent Systems, Vol. 13, No. 4, pp. 42-49, 1998.
[9] M. Pechoucek, Knowledge Based Systems.1996 (Online). Available: http://labe.felk.cvut.cz/~pechouc/papers/ make/node15.html,
[10] G. Sivard, A Generic Information Platform for Product Families. Doctoral Thesis, Royal Institute of Technology, Sweden, 2000.
[11] J. Park and S. Hunting (ed.), XML Topic Maps - Creating and Using Topic Maps for the Web. Addison-Wesley, 2003.
[12] N. Do, H. Kim, H.S. Kim, J.Y. Lee and J.H. Lee, "Web-based Product Data Management and Parts Catalog Publication System for Collaborative Product Development," IIWAS 2001, Linz, Austria, Sept. 10-12, pp. 379-387, 2001.