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Integrated design methodology of a mechatronicsystem

Published online by Cambridge University Press:  24 December 2010

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Abstract

Current literature provides many studies on the mechatronic design process. However, theyonly focus on one level of the design V-cycle. This study deals with the entire downwardside of the cycle in view to processing it globally. To achieve this, we propose a hybridmethodology based on several tools, languages and methodologies such as SADT, SysML,Modelica and CATIA Systems®. The method was validated successfully in aModelica/Dymola framework. It is now possible to partially automate the process.

Type
Research Article
Copyright
© AFM, EDP Sciences 2010

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References

Références

Chakrabarti, A., Bligh, T.P., A scheme for functional reasoning in conceptual design 22 (2001) 493517 Google Scholar
A. Pop, D. Akhvlediani, P. Fritzson, Towards Unified System Modeling with the ModelicaML UML Profile, Proceedings of the 1st International Workshop on Equation-Based Object-Oriented Languages and Tools
Yan, H.-S., A methodology for creative mechanism design, Mech. mach. Theory 27 (1992) 235242 CrossRefGoogle Scholar
J.-Y. Choley, Mécatronique: une nouvelle démarche de conception des systèmes complexes, Technologies et Formations. Delagrave Editions S.A., 2006, Vol. 127 pp. 29–35
R. Sell, M. Tamre, Integration of V-model and SysML for advanced mechatronics system design, Annecy, 2005, pp. 276–280, REM05
M. Bernardi, H. Bley, B. Schmitt, New approaches for developing mechatronical products in multidisciplinary teamwor, Seoul, 2002
G. Pahl, W. Beitz, Engineering Design – A Systematic Approach, 2nd ed., London, Springer, 1996
T.J. Teorey, D. Yang, J.P. Fry, A logical design methodology for relational databases using the extended entity-relationship model, New York, ACM Comput. Surv. (1986) 197–222, doi: 10.1145/7474.7475
L.T.M. Blessing, A process-based approach to design, London, 1995
J. Van. Amerongen, Mechatronic Design, J. Mechatronics 13 (2003) 1045–1066, http://www.ce.utwente.nl/rtweb/publications/2003/pdf-files/125CE2003.pdfCrossRef
J. Van. Amerongen, Mechatronic Design: A Port-Based Approach, American University of Sharjah, United Arab Emirates, 2007, pp. 1–8
M. Rausand, A. Høyland, System Reliability Theory: Models, Statistical Methods, and Applications, Wiley-IEEE, 2004. pp. 81–83. ISBN 047147133X
Command, Air Force Systems, Information Integration for Concurrent Engineering IDEF4 Object-Oriented Design Method Report. [Online] 1995, http://www.idef.com/
Del L. Younker, Value Engineering: Analysis and Methodology, CRC Press, 2003, 350 pages. ISBN 082470696X
D. Hubaux, L. Guedria, L. Vandendorpe, M. Verleysen, J.D. Legat, Nouvelles méthodes de conception de systèmes, Hammamet Tunisie, 2002, pp. 341–345
David Maliniak, Don’t be a separatist–think “System”. [Online] 01 02 2007. [Cited: 02 03 2009.] http://electronicdesign.com/Articles/Index.cfm?AD=1&ArticleID=14723
SysML [16] System modeling language (SysML) specification. Version 1.0, Draft. OMG document ad/2006-03-01, SysML [Online] 2006. http://www.sysml.org/ http://www.omgsysml.org/
Georgia Institute of Technology, INCOSE MBSE Challenge Team for Mechatronics/Interoperability. Georgia Institute of Technology [Online] http://www.pslm.gatech.edu/projects/incose-mbse-msi/
MODELICA, Modeling of Complex Physical Systems, Modelica [Online] http://www.modelica.org/
H.J. Hadj-Amor, Contribution au prototypage virtuel de systèmes mécatroniques basé sur une architecture distribuée HLA-Expérimentation sous les environnements OpenModelica-OpenMASK, Toulon, 2008, Thèse du Laboratoire LISMMA (EA 2336) Supmeca Toulon
Dassault Systems, Dymola multi-engineering Modelling and simulation, [Online] http://www.3ds.com/products/catia/portfolio/dymola
S. Turki, Ingénierie système guidée par les modèles: Application du standard IEEE 15288, de l’architecture MDA et du langage SysML à la conception des systèmes mécatroniques, Université du Sud Toulon-Var, 2008
R. Plateaux et al., Towards an Integrated Mechatronic Design Process, ICM, Malagà, IEEE, 2009, doi: 10.1109/ICMECH.2009.4957237
R. Plateaux, et al., Vers un environnement intégré pour le prédimensionnement – Modelica 3D, Marseille, CFM, 2009
Sharpe, J.E.E., Computer tools for integrated conceptual design, Design Studies 16 (1995) 471488 CrossRefGoogle Scholar