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2010 | 1 | nr 1 | 71--84
Tytuł artykułu

Application of Digital Enginering and Simulation in the Design of Products and Production Systems

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The paper presents the results of research & development done at the University of Žilina, Faculty of Mechanical Engineering in the area of Digital Engineering and simulation in the design of products and production systems. The digital technologies are used in innovation process of products and production systems. The paper describes the concept of Digital Factory being developed at the University of Žilina. Starting from the conceptual model of a product the whole chain of digital design processes of the given product and its production system are described. The digitization procedure is presented using 3D laser scanning technologies. The paper presents the theoretical research done in metamodelling based on computer simulation and used by the choice of the appropriate shop floor control system. The future research goals are presented as well. (original abstract)
Opis fizyczny
  • University of Žilina, Slovakia
  • University of Žilina, Slovakia
  • Acél P., Gregor M., Hrdliczka V. (1993). Simulation in der Produktion. BWI-ETH Zürich, 300 pp.
  • Barczik R. (2003). Distribution Logistics. University of Bielsko-Biala.
  • Coze Y. (2009). At all: Virtual Concept - Real Profit with Digital Manufacturing and Simulation. Dassault Systemes and Sogeti, 168 pp. (ISBN 978-90-75414-25-7).
  • Dreher C. (2007). Manufacturing Visions: A Holistic View of the Trends for European Manufacturing. In.: Advanced Manufacturing. An ICT and Systems Perspective. Taylor & Francis, London, pp. 23-33, ISBN 978-0-415-42912-2.
  • Furmann R. (2007). e proposal of an algorithm for layout design in virtual environment. Dissertation Thessis. University of Žilina, Mechanical Engineering Faculty, pp.135.
  • Garetti M., Macchi M., Terzi S. (2007). Product Lifecycle Management: State-of-the-art, Trends and Chalenges. In.: Advanced Manufacturing. An ICT and Systems Perspective. Taylor & Francis, London, 2007, pp. 37-49, ISBN 978-0-415-42912-2.
  • Gregor M., Hromada J., Matuszek J. (2008). Digital Factory supported by simulation and metamodelling. Applied Computer Science - Performance evaluation models of manufacturing systems. Editors: Banaszak Z., Matuszek J., Vol. 4, No. 2, pp. 63-74.
  • Gregor M., Matuszek J. (2005). Simulation in Factory Optimisation. Applied Comput Science and Production Management, Vol. 1,No. 1, pp. 61-74.
  • Gregor M., Medvecký Š., Mičieta B., Matuszek J., Hrčeková A. (2006). Digital Factory. SLCP Žilina, 2006, 148 pp. (in Slovak).
  • Hromada J. (2005). Manufacturing Systems Simulation. PhD. Thesis, University of Žilina, 135 pp.
  • Chlebus E. (2000). Techniki komputerowe Cax w inżynierii produkcji. Wydawnictwa Naukowo-Techniczne, Warszawa.
  • Intelligent Manufacturing Systems (2005). Impact Report - History and Achievements of Phase 1. Retrived from
  • Jovane F., Westkamper E., Williams D. (2009). The Manu-Future Road. Towards Competitive and Sustainable High-Adding-Value manufacturing. Springer Verlag Berlin, 260 pp.
  • Košturiak J., Gregor M. (1995). Simulation von Produktionssystemen. Springer Verlag, Wien, 190 pp.
  • Manufuture - a vision for 2020. Assuring the Future of Manufacturing in Europe. Report of the High Level Group, DG Research, European Commission, Brussels, November 2004.
  • Montorio M., Taisch M. (2007a). The Future Of Manufacturing: Survey of international technology foresight initiatives. In.: Advanced Manufacturing. An ICT and Systems Perspective. Taylor & Francis, London, pp. 3-12.
  • Montorio M., Taisch M. (2007b). The IMS-NoE Delphi Survey Of ICT In Manufactuirng. In.: Advanced Manufacturing. An ICT and Systems Perspective. Taylor & Francis, London, pp. 13-22.
  • Sarker B.R., Fitzsimmons J.A. (1989). The performance of push and pull systems: a simulation and comparative study. International Journal of Production Research, Vol. 27, No.10, pp. 1715-1731.
  • Škorík,P. et al. (2009). Artificial Intelligence Tools in Simulation and Optimization of Production Systems. Applied Computer Science - Implementation of Information Systems in Enterprises. Editors: Banaszak Z., Gregor M., Matuszek J., Vol. 5, No. 2, pp. 42-57.
  • Turicik I. (2009). Optimization of design of the Mechanical Engineering product from the point of view of its beneficial properties and production costs. Dissertation, University of Žilina, Faculty of Mechaniacal Engineering, Žilina, 139 pp. (in Slovak).
  • Wang D., Xu Ch. (1997). Hybrid push/pull production control strategy simulation and its application. Production Planning and Control, Vol. 8, No. 2, pp. 142-151.
  • Westkaemper E., Bischo J., Von Briel R., Duerr M. (2001). Factory Digitalizing - An adapted approach to a digital factory planning in existing factories and buildings, Werkstattstechnik, 91.
  • Wu S.Y., Morris J.S., Gordon T.M. (1994). A Simulation Analysis of the Effectiveness of Drum-Buffer-Rope Scheduling in Furniture Manufacturing. Computers Industrial Engineering, Vol. 26, No. 4, pp. 757-764.
  • Yavuz, I. H. - Satir, A.: Kanban - based operational planning and control: simulation modelling. Production Planning and Control, 1995, Vol. 6, No. 4, pp. 331-344.
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