Abstract
In this chapter I conceptually characterize the development of design methodology and analyze the changes this development has induced in the role engineers play in design. First, three successive types of design methods are described, from traditional engineering methods to current design thinking methods. Second, I show that this succession of methods has shifted the role of designing engineers from that of an assistant supplying technical solutions to customers, to an autonomous role of exploring and addressing user and societal needs independently of customers. I argue that these changes in their role may give engineers a more independent position and a broader grasp of design practices. Yet engineers also have to share this position with designers from disciplines other than engineering, and engineers may even lose their new role. According to current design methods, innovative design involves more than applying technology to address needs. Hence, if engineering remains to be seen as the discipline that provides technology, design becomes a discipline different to engineering. Engineers will in that case be forced back into their assistant role and become suppliers of technical solutions to other designers.
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- 1.
Let me acknowledge that this characterization of traditional engineering design is somewhat simplifying matters. Design methodologists associated with the traditional understanding do recognize that engineering design is embedded in specific contexts and that engineering designers should mind the goals of their customers and be aware that much designing is instrumental to economic activities of companies (e.g., Roozenburg and Eekels 1995).
- 2.
It may be argued that since engineers can themselves be managers in commercial companies, engineers were already earlier involved in the exploration and development of new product ideas. More precisely, the point made here is that nowadays designing engineers are also increasingly becoming part of this exploration and development (private communication with Byron Newberry).
References
Baghai, M., Coley, S., & White, D. (2000). The alchemy of growth: Practical insights for building the enduring enterprise. New York: Perseus Publishing.
Blessing, L. T. M., & Chakrabarti, A. (2009). DRM: A design research methodology. London: Springer.
Brown, T. (2009). Change by design: How design thinking transforms organizations and inspires innovation. New York: Harper Business.
Bucciarelli, L. L. (1994). Designing engineers. Cambridge, MA: MIT Press.
Buchanan, R. (2009). Thinking about design: An historical perspective. In A. W. M. Meijers (Ed.), Philosophy of technology and engineering sciences (pp. 409–453). Amsterdam: Elsevier.
Cross, N. (2000). Engineering design methods: Strategies for product design (3rd ed.). Chichester: Wiley.
Cross, N. (2006). Designerly ways of knowing. London: Springer.
D.School. (2011). D.School Bootcamp Bootleg. http://dschool.stanford.edu/wp-content/uploads/2011/03/BootcampBootleg2010v2SLIM.pdf
Dorst, K. (2006). Design problems and design paradoxes. Design Issues, 22(3), 4–17.
Dorst, K., & Cross, N. (2001). Creativity in the design process: Co-evolution of the problem-solution. Design Studies, 22(5), 425–437.
Dorst, K., & van Overveld, K. (2009). Typologies of design practices. In A. W. M. Meijers (Ed.), Philosophy of technology and engineering sciences (pp. 455–487). Amsterdam: Elsevier.
Downey, G. (2005). Are engineers losing control of technology? From ‘problem solving’ to ‘problem definition and solution’ in engineering education. Chemical Engineering Research and Design, 83(A6), 583–595.
Gardien, P. (2006). Breathing life into delicate ideas: developing a network of options to increase the chance of innovative success. Position paper, Philips Design. http://www.design.philips.com/philips/shared/assets/design_assets/downloads/news/Breathing_life_into_delicate_ideas.pdf
Goldman, S. L. (1984). The techne of philosophy and the philosophy of technology. Research in Philosophy and Technology, 7, 115–144.
Hekkert, P., & van Dijk, M. (2011). Vision in design: A guidebook for innovators. Amsterdam: BIS Publishers.
Houkes, W., & Vermaas, P. E. (2010). Technical functions: on the use and design of artefacts. Dordrecht: Springer.
Hubka, V., & Eder, W. E. (1988). Theory of technical systems. Berlin: Springer.
Koskinen, I., Zimmerman, J., Binder, T., Redström, J., & Wensveen, S. (2011). Design research through practice: From the lab, field, and showroom. Waltham: Morgan Kaufmann.
Lanning, M. J., & Michaels, E. G. (2000). A business is a value delivery system. A McKinsey staff paper dated June 1988, (pp 53–57). Available from McKinsey Quarterly: http://www.mckinsey.com/insights/strategy/delivering_value_to_customers
Lawson, B., & Dorst, K. (2009). Design expertise. Oxford: Architectural Press.
Pahl, G., Beitz, W., Feldhusen, J., & Grote, K.-H. (2007). Engineering design: A systematic approach (3rd ed.). London: Springer.
Plattner, H., Meinel, C., & Weinberg, U. (2009). Design thinking: innovation Lernen – Ideenwelten Öffnen. Munich: mi-Wirtschaftsbuch.
Rittel, H. W. J., & Webber, M. M. (1984). Planning problems are wicked problems. In N. Cross (Ed.), Developments in design methodology (pp. 135–144). Chichester: Wiley.
Roozenburg, N. F. M., & Eekels, J. (1995). Product design: fundamentals and methods. Chichester: Wiley.
Sanders, E. B.-N., & Stappers, P. J. (2008). Co-creation and the new landscapes of design. CoDesign, International Journal of CoCreation in Design and the Arts, 4(1), 5–18.
Schön, D. A. (1983). The reflective practitioner: how professionals think in action. London: Temple Smith.
Simon, H. A. (1984). The structure of ill-structured problems. In N. Cross (Ed.), Developments in design methodology (pp. 145–166). Chichester: Wiley.
Simon, H. A. (1996). The sciences of the artificial (3rd ed.). Cambridge, MA: MIT Press.
VDI (Verein Deutscher Ingenieure), (1993). VDI Guideline 2221: Methodik zum Entwickeln und Konstruieren technischer Systeme und Produkte. Düsseldorf: Verein Deutscher Ingenieure.
Verganti, R. (2009). Design driven innovation: Changing the rules of competition by radically innovating what things mean. Boston: Harvard Business Press.
Williams, R. (2003). Education for the profession formerly known as engineering. Chronicle of Higher Education, 49(20), B12–B13.
Young, J. S., & Simon, W. L. (2005). iCon: Steve Jobs, the greatest second act in the history of business. Hoboken: Wiley.
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Vermaas, P.E. (2015). Design Methodology and Engineering Design. In: Christensen, S., Didier, C., Jamison, A., Meganck, M., Mitcham, C., Newberry, B. (eds) Engineering Identities, Epistemologies and Values. Philosophy of Engineering and Technology, vol 21. Springer, Cham. https://doi.org/10.1007/978-3-319-16172-3_8
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