Abstract
Engineering design research has historically been evaluated in terms of its computational performance. However, in many cases this research implies hypotheses about human behavior which are ignored. In this paper, we argue that the systems emerging from design research will benefit from investigating how people use them to accomplish work, and from the incorporation of principles of Participatory Design (Floyed et al., 1989) at the earliest stages of the development process. Using a case study, we present the evolution of a CAD system that supports complex mathematical modeling. This design effort is examined according to principles outlined in another well-documented effort in Participatory Design. Finally, despite the common misconception that such considerations impede basic research, we argue that continuous user involvement can guide research by validating experimental hypotheses and pointing to areas for future inquiry.
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Bjerknes, G., Ehn, P., and Kyng, M.Computers and Democracy-A Scandinavian Challenge. Aldershot, England: Avebury, 1987
Blomberg, J. and Henderson, A. Reflections on Participatory Design: Lessons from the Trillium Experience.CHI '90 Conference Proceedings: Human Factors in Computing Systems. Seattle, WA: ACM P, 353–360, 1990.
Curtis, B., Krasner, H., and Iscoe, N. A Field Study of the Software Design Process for Large Systems.Communications of the ACM 31:11, 1268–1287, 1988.
Dhar, V. and Ranganathan, N. Integer Programming versus Expert Systems. An Experimental Comparison.Communications of the ACM 33(3), 326–336, 1990.
D'Andrade, R. Memory and assessment in behavior.Measurement in the Social Sciences Blalock, H.M. (Ed.), Aldine Publishing Company: Chicago, 159–186, 1974.
Floyd, C. Outline of a Paradigm Change in Software Engineering.Computers and Democracy—A Scandinavian Challenge. G. Bjerknes, P. Ehn, and M. Kyng (Eds.). Aldershot, England: Avebury, 191–210, 1987.
Floyd, C., Mehl, W-M., Reisin, F-M., Schmidt, G., and Wolf, G. Out of Scandinavia: Alternative Approaches to Software Design and System Development.Human-Computer Interaction 4, 253–350, 1989.
Gupta, P.K., Lavoie, R.C., and Radcliffe, R.R. An Industry Evaluation of SPEEDUP.Paper Presented at the AIChE Annual Meeting. San Francisco, CA, 1984.
Hayes, John R.The Complete Problem Solver. Philadelphia: The Franklin Institute Press, 1981.
Jordan, BrigitteBirth in Four Cultures. Montreal: Eden Press, 1983.
Kendrick, D. and Meeraus, A. GAMS, an Introductory Technical Report.Technical Report, Development and Research Department at the World Bank. Washington, DC, 1985.
Ong, W.J.Orality and Literacy: The Technologizing of the Word. New York: Methuen, 1982.
Penzias, A.Ideas and Information: Managing in a High-Tech World. New York: Simon & Schuster, 1989.
Perkins, J.D. Equation-Oriented Flowsheeting. In A.W. Westerberg and H.H. Chien (Eds.),Proceedings of the Second International Conference on Foundations of Computer-aided Process Design. 309–367. United States: CACHE Publications, 1984.
Piela, P., Epperly, T., Westerberg, K. and Westerberg, A. ASCEND: An Object-Oriented Computer Environment for Modeling and Analysis. Part 1—The Modeling Language.Computers and Chemical Engineering 15 (1), 53–72, 1991.
Rosenbrock, H. The Background to the Project.Designing Human-Centered Technology: A Cross-Disciplinary Project in Computer-Aided Manufacturing. London: Springer-Verlag, 1989.
Shacham, M., Macchietto, S., Stutzman, L.F., and Babcock, P. REVIEW—Equation-Oriented Approach to Process Flowsheeting.Computers and Chemical Engineering 6, (2), 79–95, 1982.
Stanford University, Department of Operations Research, Systems Optimization Laboratory MINOS system manual. (Technical Report Collection, SUORSOL-7731), Stanford California, 1977.
Suchman, L.A.Plans and Situated Actions: The Problem of Human-Machine Communication. Cambridge, England: Cambridge UP, 1987.
Thoresen, K. Experiences with Participatory Design.PDC'90: Participatory Design Conference Proceedings. A. Namioka and D. Schuler (Eds.), Scattle, WA: 34–35, 1990.
Westerberg, A. ASCEND: A System for the Rapid Building of Equational Models.CIT, The Magazine of the Carnegie Institute of Technology 9 (2), 23–26, 1990.
Westerberg, A.W. and Benjamin, D.R. Thoughts on a Future Equation-Oriented Flowsheeting System.Computers and Chemical Engineering 9 (5), 517–526, 1985.
Westerberg, A.W., Hutchinson, H.P., Motard, R.L., and Winter, P.Process Flowsheeting. Cambridge, England: Cambridge UP, 1979.
Winograd, T. and Flores, F.Understanding Computers and Cognition: A New Foundation for Design. Norwood, NJ: Ablex, 1986.
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Piela, P., Katzenberg, B. & McKelvey, R. Integrating the user into research on engineering design systems. Research in Engineering Design 3, 211–221 (1992). https://doi.org/10.1007/BF01580843
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DOI: https://doi.org/10.1007/BF01580843