Abstract
Future product realisation systems must be based on modern information systems and technology. This will make it possible to systematically store all relevant design manufacturing data in a consistent and structured way. Important product models and design process data will then be available to relate customer requirements and manufacturing constraints etc. In a global economy with many partners and suppliers these information systems must to a large extent be based on standards.
The information models described by the Application Protocols of the ISO10303 standard provides the industry with common integrated information models for the product, process and manufacturing resources. The industry standard CORBA provides a complete distributed software environment. Here, the combination of using the ISO10303 for the information models and the CORBA for the implementation of a distributed computer environment enables a framework for a truly shared data environment supporting the collaborative work process.
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References
Al-Timimi, K.;MacKrell, J.; “STEP: Towards Open Systems”; ClMdata; U.S.A.; ISBN 1–889760–00–5
Andreassen, M.M.; “Designing on a ”Designer’s Workbench“ Proc. of the 9th WDK Workshop; Rigi; Switzerland; 1992
“CORBA/IIOP 2.2 Specification”; ftp://ftp.omg.org/pub/docs; 1998
Johansson, M.; Rosén, J.;Kjellberg, T.; “Product Realisation and Virtual Manufacturing based on Standard Data Communication” Proc. of SIG–PM Produktmodeller —98’;pp. 493–507; Linköping; ISBN 91–7219364–6; 1998
Kimura, F.;. “Workshop on Concurrent Engineering for Product Realization”; Annals of the CIRP; Vol. 41; No. 2; pp. 743–746; 1992
Krause, F.-L.; Kimura, F.; Kjellberg, T.; “Product Modelling”; Annals of the CIRP; Vol. 42; No. 2; pp. 695–706; 1993
Krebs, T.; Lührsen, H.; “STEP Databases as Integration Platform for Concurrent Engineering”; Proc. 2nd International Conference on Concurrent Engineering, pp. 131–142; Virginia; 1995.
“National Industrial Information Infrastructure”; http://www.niiip.org/; accessed Dec. 1998
“OMG Background Information”; http://www.omg.org/omg/background.html; accessed Nov. 1998
Otte, R.; Patrick, P.; Roy, M.; Understanding Corba; Prentice Hall PTR, ISBN 0–13–459884–9
Sands, B.; Stephens, D.; Laliberty, T.J.; Raja, N.; “Manufacturing simulations based on integrated product/process models” http://www.deneb.com/MADE/papers/dfm/dfm_97.html; 1997.
Sohlenius, G.; “Concurrent Engineering”; Annals of the CIRP, vol. 41, no. 2, pp. 645–655, 1992.
ISO10303–1 Industrial automation systems and integration — Product data representation and exchange,. Part 1: Overview and fundamental principles
ISO10303–1 Industrial automation systems and integration — Product data representation and exchange,. Part 11: Description methods: The EXPRESS language reference manual.
–1 Industrial automation systems and integration — Product data representation and exchange Part 22: Standard Data Access Interface specification.
ISO10303–1 Industrial automation systems and integration — Product data representation and exchange Part 214: Application Protocol: Core data for automotive mechanical design process.
Suh, N. P.; The Principles of Design; Oxford University Press; New York; 1990.
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© 1999 Springer Science+Business Media Dordrecht
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Rosén, J., Kjellberg, T., Johansson, M. (1999). A System Framework for Integrated Design and Manufacturing based on Standards. In: Kals, H., van Houten, F. (eds) Integration of Process Knowledge into Design Support Systems. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-1901-8_26
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DOI: https://doi.org/10.1007/978-94-017-1901-8_26
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