[en] While product models and process models have a long standing transiting, there are few models that integrate the two type of models. Those that exist are research systems, which even if validated in industry do not have a broad uptake to date. This paper develops an integrated framework for product and process models based on the purpose the models are put it building on a model of Browning and Ramasesh. Selected integrated model are classified according to the framework. This revealed the no model to date gives equal weight to product and process models.
Disciplines :
Mechanical engineering
Author, co-author :
Eckert, Claudia; The Open University, UK
Albers, Albert; KIT, Germany
Bursac, Nikola; KIT, Germany
Chen, Hilario Xin; University of Cambridge, UK
Clarkson, P. John; University of Cambridge, UK
GERICKE, Kilian ; University of Luxembourg > Faculty of Science, Technology and Communication (FSTC) > Engineering Research Unit
Gladysz, Bartosz; KIT, Germany
Maier, Jakob; University of Cambridge, UK
Rachenkova, Galina; KIT, Germany
Shaprio, Daniel; University of Cambridge, UK
Wynn, David; McGill University, Canada
External co-authors :
yes
Language :
English
Title :
Integrated product and process models: towards an integrated framework and review
Publication date :
August 2015
Event name :
International Conference on Engineering Design ICED'15
Event organizer :
The Design Society
Event place :
Milano, Italy
Event date :
from 27-07-2015 to 31-07-2015
Audience :
International
Main work title :
Proceedings of the International Conference on Engineering Design 2015
Abramovici, M., Chasiotis, C. (2002) Integrated Documentation of Procedural Knowledge in Product Development, Proceedings of Integrated Product and Process Development, Wroclaw, Poland.
Ahmad, N., Wynn, D.C., Clarkson, P. J. (2013) Change Impact on a Product and its Redesign Process: A Tool for Knowledge Capture and Reuse. Research in Engineering Design, 24 (3) pp. 219-244.
Adler, P.S., Mandelbaum, A., Nguyen, V., Schwerer, E. (1995) From Project to Process Management: An Empirically-Based Framework for Analyzing Product Development Time, Management Science 41, pp 458-484.
Albers, A., Braun, A. (2011) A generalized framework to compass and to support complex product engineering processes, International Journal of Product Development 25 (1-3), pp 6-25.
Albers, A., Lödcke, R., Bursac, N., Reiß, N. (2014) Connecting Knowledge-Management-Systems to improve a Continuous Flow of Knowledge in Engineering Design Processes, Proceedings of TMCE 2014, pp 393-402.
Andreasen, M.M. (1994) Modelling-The Language of the Designer, Journal of Engineering Design, Vol. 5. Vol.5, pp. 103-115.
Barbati, M., Bruno, G., Genovese, A. (2012) Applications of agent-based models for optimization problems: A literature review, Expert Systems with Applications 39, 6020-6028.
Bernard, A., Labrousse, M., Perry, N. (2006) LC universal model for the enterprise information system structure, In Innovation in life cycle engineering and sustainable development, Springer: Netherlands. pp 429-446.
Box, G. E. P., Draper, N. R. (1987) Empirical Model Building and Response Surfaces, John Wiley & Sons, New York, NY.
Browning, T.R. (2001) Applying the design structure matrix to system decomposition and integration problems: A review and new directions, IEEE Transactions on Engineering Management, 48, pp 292-306.
Browning, T.R., Ramasesh, R.V. (2007) A Survey of Activity Network-Based Process Models for Managing Product Development Projects. Production and operations management 16, pp 217-240.
Chua, D.K.H., Hossain, M.A. Predicting Change Propagation and Impact on Design Schedule Due to External Changes. IEEE Transactions on Engineering Management, 59 (3), pp 483-493.
Clarkson, P.J., Hamilton, J.R. (2000) "Signposting", a parameter-driven task-based model of the design process, Research in Engineering Design 12, pp, 18-38.
Cohen, G.P. (1993) The virtual design team: An information-processing model of design team management, PhD Thesis, Stanford University.
Cooper, K.G. (1993) The rework cycle. Project Management in action, Project Management Journal
Crowder, R.M., Robinson, M.A., Hughes, H.P.N., Sim, Y.W. (2012) The Development of an Agent-Based Modeling Framework for Simulating Engineering Team Work, IEEE Transactions on Systems, Manufacturing, and Cybernetics-Part A: Systems and Humans 42, 1425-1439.
Danilovic, M., Browning, T.R. (2007) Managing complex product development projects with design structure matrices and domain mapping matrices, International Journal of Project Management 25, pp 300-314.
Eckert, C.M., Clarkson, P.J. (2010) Planning Development Processes for Complex Products, Engineering Design 21 (3), pp 153-171.
Eisenbart, B., Gericke, K., Blessing, L. (2011) A framework for comparing design modelling approaches across disciplines, Proceedings of 18th International Conference on Engineering Design, pp 344-355.
Eppinger S.D., Whitney D.E., Smith R.P., Gebala D.A. (1994) A model-based method for organizing tasks in product development, Research in Engineering Design, 6 (1), pp 1-13.
Fricke, E., Negele, H., Schrepfer, L., Dick, A., Gebhard, B., Hartlein, N. (1998) Modeling of concurrent engineering processes for integrated systems development, Digital Avionics Systems Conference. Proceedings 17th DASC.
Frigg., R. (2003) Re-representing scientific representation. PhD thesis. Department of Philosophy Logic and Scientific Method, London School of Economics.
Gärtner, T., Rohleder, N., Schlick, C.M., DeSim-A Simulation Tool for Project and Change Management on the Basis of Design Structure Matrices, 11th International DSM Conference, Greenville, South Carolina, USA.
Golenko-Ginzburg, D., Gonik, A., Laslo, Z. (2003) Resource constrained scheduling simulation model for alternative stochastic network projects, Mathematics and Computers in Simulation 63, pp 105-117.
Gonnet, S., Henning, G., Leone, H. (2007) A model for capturing and representing the engineering design process, Expert Systems with Applications, 33 (4), pp 881-902.
Hammer, M. (2001) Seven insights about processes, Presented at the Strategic Power of Process: From Ensuring Survival to Creating Competitive Advantage, Boston, MA.
Hales, C., Gooch, S. (2004) Managing Engineering Design, Springer.
Haskins, C., Krueger, M., Forsberg, K., Walden, D., Hamelin, R. D. (2011) Systems Engineering Handbook V3.2.2. INCOSE
Heisig, P., Caldwell, N.H.M., Clarkson, P.J. (2014) Core information categories for engineering design-contrasting empirical studies with a review of integrated models, Journal of Engineering Design, 25 (1-3), pp 88-124.
Levardy, V., Browning, T.R. (2009) An Adaptive Process Model to Support Product Development Project Management, IEEE Transactions on Engineering Management, 56 (4), pp 600-620.
Lindemann U., Maurer M., Braun T. (2009) Structural complexity management: An approach for the field of product development. Berlin: Springer.
Mayer, R.J., Menzel, C.P., Painter, M.K., Dewitte, P.S., Blinn, T., Perakath, B. (1995) Information integration for concurrent engineering (IICE) IDEF3 process description capture method report (No. KBSI-IICE-90-STR-01-0592-02), Knowledge Based Systems Inc. College Station, TX.
NIST. (1993) Integration definition for function modeling (IDEF0), Computer Systems Laboratory of the National Institute of Standards and Technology. U.S. Department of Commerce, Federal Information Processing Standards Publication 183.
ODonovan, B., Browning, T.R., Eckert, C.M., Clarkson, P.J. (2005) Design planning and modelling. In: Clarkson, P.J., Eckert, C. M. Design Process Improvement: A Review of Current Practice, Springer: London, pp 60-87.
Ouertani, M.Z., Grebici, K., Blanco, E., Rieu, D. (2007) DEPNET : A methodology for identifying and qualifying dependencies between engineering data. In: Krause, F-R. The Future of Product Development. Springer: Berlin Heidelberg, pp 319-330.
Pahl, G., Wallace, K., Blessing, L., Pahl, G. (1996) Engineering design: A systematic approach. Springer.
Peterson, J.L. (1982) Petri net theory and the modelling of systems, Prentice-Hall.
PMI (2013) A Guide to the Project Management Body of Knowledge: PMBOK Guide, Newtown Square, PA, USA: Project Management Institute.
Smith, R.P., Morrow, J.A. (1999) Product development process modelling, Design Studies, 20 (3), pp 237-261.
Stachowiak, H. (1973) Allgemeine Modelltheorie. Springer, Wien.
Stachowiak, H. (1994) Modell. In: Seiffert, H., Radnitzky, G. Handlexikon der Wissenschaftstheorie, 2nd edition, Deutscher Taschenbuchverlag dtv: Munich, pp 219-222
Wynn, D.C. (2007) Model-based approaches to support process improvement in complex product development, PhD Thesis, University of Cambridge.
Wynn, D.C., Clarkson, P.J. (2005) Models of designing. In: Clarkson, P.J., Eckert, C.M. Design Process Improvement: A Review of Current Practice, Springer: London, pp 34-59.
Wynn, D.C., Eckert, C.M., Clarkson, P.J. (2006) Applied signposting: A modelling framework to support design process improvement, Proceedings of the ASME International Design Engineering Technical Conferences (IDETC/CIE2006), Philadelphia, PA, US.
Wynn, D.C., Caldwell, N.H.M. and Clarkson, P.J. (2014) Predicting Change Propagation in Complex Design Workflows, Journal of Mechanical Design, 136 (8), 081009.
