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Participatory Design

  • Yutaka Yamauchi
Chapter

Abstract

Over the last three decades, participatory design research has reached maturity with a number of studies reported and a variety of methods developed and tested. This chapter has two goals. First, it is aimed at showing that there is more to be done in participatory design research. Stakeholders not only participate in design but also transform themselves through design. They start to see the world differently and design a technology in new ways. This complex participation process has been glossed over. Despite the plethora of research that has been done, we have yet to comprehend stakeholder participation fully. Second, it seeks to point out that participatory design is needed for a broader range of technology development, particularly upstream research. Whereas participatory design has been discussed in the context of downstream development of information systems and consumer products, it has become important for upstream research, which tends to be removed from the field in which the technologies will be used. Through these arguments, more research is called for in participatory design.

Keywords

Domain Expert Work Practice Boundary Object Participatory Design User Participation 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

References

  1. Bechky, B.A. Sharing Meaning Across Occupational Communities: The Transformation of Understanding on a Production Floor. Organization Science 14(3) 312–330, 2003CrossRefGoogle Scholar
  2. Berger, P.L., Luckmann, T. The Social Construction of Reality. Doubleday, Garden City, New York, 1966Google Scholar
  3. Bodker, K., Kensing, F., Simonsen, J. Participatory IT design: Designing for Business and Workplace Realities. MIT Press, Cambridge, Massachusetts, 2004Google Scholar
  4. Carlile, P.R. A Pragmatic View of Knowledge and Boundaries: Boundary Objects in New Product Development. Organization Science 13(4) 442–455, 2002CrossRefGoogle Scholar
  5. Carlile, P.R. Transferring, Translating, and Transforming: An Integrative Framework for Managing Knowledge Across Boundaries. Organization Science 15(5) 555–568, 2004CrossRefGoogle Scholar
  6. Ehn, P., Kyng, M. Cardboard Computers: Mocking-it-up or Hands-on the Future. In J.M. Greenbaum and M. Kyng (eds.), Design at Work: Cooperative Design of Computer Systems. L. Erlbaum Associates, Hillsdale, New Jersey, pp. 167–195, 1991Google Scholar
  7. Franz, C.R., Robey, D. An Investigation of User-Led System Design: Rational and Political Perspectives. Communications of the ACM 27(12) 1202–1209, 1984CrossRefGoogle Scholar
  8. Giddens, A. The Constitution of Society: Outline of the Theory of Structuration. University of California Press, Berkeley, California, 1984Google Scholar
  9. Greenbaum, J.M., Kyng, M. Design at Work: Cooperative Design of Computer Systems. L. Erlbaum Associates, Hillsdale, New Jersey, 1991Google Scholar
  10. Griliches, Z. Hybrid Corn: An Exploration in the Economics of Technological Change. Econometrica 25(4) 501–522, 1957CrossRefGoogle Scholar
  11. Kuhn, T.S. The Structure of Scientific Revolutions. University of Chicago Press, Chicago, 1962Google Scholar
  12. Langdon, W. Do Artifacts Have Politics? Daedalus, 109(1) 121–136, 1980Google Scholar
  13. Lave, J., Wenger, E. Situated Learning: Legitimate Peripheral Participation. Cambridge University Press, Cambridge, 1991CrossRefGoogle Scholar
  14. Markus, M.L. Power, Politics, and MIS Implementation. Communications of the ACM 26(6) 430–444, 1983CrossRefGoogle Scholar
  15. Muller, M.J. PICTIVE — An Exploration in Participatory Design. CHI 1991, Proc. SIGCHI Conference on Human Factors in Computing Systems: Reaching Through Technology, 1991Google Scholar
  16. Nelson, R.R., Winter, S.G. An Evolutionary Theory of Economic Change. Belknap Press of Harvard University Press, Cambridge, Massachusetts, 1982Google Scholar
  17. Robey, D., Farrow, D.L., Franz, C.R. Group Process and Conflict in System Development. Management Science 35(10) 1172–1191, 1989CrossRefGoogle Scholar
  18. Schmookler, J. Invention and Economic Growth. Harvard University Press, Cambridge, Massachusetts, 1966Google Scholar
  19. Schön, D.A. The Reflective Practitioner: How Professionals Think in Action. Basic Books, New York, 1983Google Scholar
  20. Schuler, D., Namioka, A. Participatory Design: Principles and Practices. L. Erlbaum Associates, Hillsdale, New Jersey, 1993Google Scholar
  21. Simon, H.A. The Sciences of the Artificial. MIT Press, Cambridge, Massachusetts, 1968Google Scholar
  22. Trist, E.L., Bamforth, K.W. Some social and psychological consequences of the longwall method of coal-getting: An examination of the psychological situation and defences of a work group in relation to the social structure and technological content of the work system. Human Relations 4(1) 3–38, 1951CrossRefGoogle Scholar
  23. Yamauchi, Y. Transforming Information System Design: Enabling Users to Design. In M.H. Szymanski and J. Whalen (eds.), Making Work Visible: Ethnographically Grounded Case Studies of Work Practice, Cambridge University Press, New York, 2011Google Scholar
  24. Yamauchi, Y., Swanson, E.B. Local assimilation of an enterprise system: Situated learning by means of familiarity pockets. Information and Organization 20(3–4) 187–206, 2010CrossRefGoogle Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 2012

Authors and Affiliations

  1. 1.Graduate School of ManagementKyoto UniversityKyotoJapan

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