A Punctuated-Equilibrium Model of Technology Diffusion

Published Online:https://doi.org/10.1287/mnsc.45.2.160

References

  • Abernathy W. J., Utterback J. Patterns of industrial innovation. Tech. Rev. (1978) 80(June–July):40–47Google Scholar
  • Abrahamson E., Rosenkopf L. Social network effects on the extent of innovation diffusion: A computer simulation. Organ. Sci. (1997) 8(3):289–309LinkGoogle Scholar
  • Advertising Age Software price wars take a toll. (1993) November 15):S. 10Google Scholar
  • Anderson P., Tushman M. L. Technological discontinuities and dominant designs. Admin. Sci. Quart. (1990) 35:604–633CrossrefGoogle Scholar
  • Arthur W. B. Competing technologies and lock-in by historical small events: The dynamics of allocation under increasing returns. (1983) (Center for Economic Policy Research, Stanford University, Stanford, CA) Google Scholar
  • Arthur W. B. Competing technologies, increasing returns and lock-in by historical small events. Increasing Returns and Path Dependence in the Economy (1994) (University of Michigan Press, Ann Arbor, MI) 13–32Chapter 2 inCrossrefGoogle Scholar
  • Business Week Spreadsheet wars. (1991) January 14):42Google Scholar
  • Business Week Why the fastest chip didn't win. (1997) April 28):58–60Google Scholar
  • Ceccato H. A., Huberman B. A. Persistence of nonoptimal strategies. Proc. National Acad. Sci. USA (1989) 86:3443–3446CrossrefGoogle Scholar
  • Clark K. B. The interaction of design hierarchies and market concepts in technology evolution. Res. Policy (1985) 14:235–251CrossrefGoogle Scholar
  • Computing Lotus battles for position in desktop arena. (1994) November 3):14Google Scholar
  • Cusumano M. A., Mylonadis Y., Rosenbloom R. S. Strategic maneuvering and mass-market dynamics: The triumph of VHS over Beta. Bus. Hist. Rev. (1992) 66:51–94CrossrefGoogle Scholar
  • David P. Why are institutions the carriers of history? Structural Change Econom. Dynam. (1994) 5:205–220CrossrefGoogle Scholar
  • Desktop Computing How suite it is. (1993) January 18):37–38Google Scholar
  • Economist Technology brief: Being digital is not enough. The Economist (1996) September 28):108Google Scholar
  • Eldredge N., Gould S. J., Schopf T. J. M. Punctuated equilibria: An alternative to phyletic gradualism. Models in Paleobiology (1972) (Freeman, San Francisco, CA) 82–115Google Scholar
  • Eldredge N., Gould S. J. Punctuated equilibria: The tempo and mode of evolution reconsidered. Paleobiology (1977) 3:115–151CrossrefGoogle Scholar
  • Fortune Killer chip. Fortune (1997) November 10):50–55Google Scholar
  • Foster D., Young P. Stochastic evolutionary game dynamics. Theoret. Population Biol. (1990) 38:219–232CrossrefGoogle Scholar
  • Ghemawat P. Market incumbency and technological inertia. Marketing Sci. (1991) 10:161–171LinkGoogle Scholar
  • Granovetter M. Threshold models of collective behavior. Amer. J. Sociology (1978) 83:1420–1443CrossrefGoogle Scholar
  • Gurbaxani V. Diffusion in computing networks: The case of Bitnet. Comm. ACM (1990) 33(12):65–75CrossrefGoogle Scholar
  • Huberman B. A., Glance N. S. Evolutionary games and computer simulations. Proc. National Acad. Sci. USA (1993a) 90:7716–7718CrossrefGoogle Scholar
  • Huberman B. A., Glance N. S., Haken H., Mikhailov A. Diversity and collective action. Interdisciplinary Approaches to Nonlinear Complex Systems (1993b) 62(Springer Series in Synergetics)44–64CrossrefGoogle Scholar
  • InfoWorld Update of 1-2-3 for Windows fixes bugs. (1991) November 11):105–107Google Scholar
  • Lotus 1-2-3 rode high until Windows revolutionInfoWorld (1996) 59(July 29Google Scholar
  • Islas J. Getting around the lock-in in electricity generating systems: The example of the gas turbine. Res. Policy (1997) 26:49–66CrossrefGoogle Scholar
  • Kumar U., Kumar V. Technological innovation diffusion: The proliferation of substitution models and easing the user's dilemma. IEEE Trans. Engrg. Management (1992) 39:158–168CrossrefGoogle Scholar
  • Lévy F. K. Adaptation in the production process. Management Sci. (1965) 11:B136–B154LinkGoogle Scholar
  • Liebowitz S., Margolis S. E. Policy and path dependence—From QWERTY to Windows 95. Regulation (1995) 33–41Google Scholar
  • Mokyr J.The Lever of Riches (1990) (Oxford University Press, Oxford, UK) Google Scholar
  • Mokyr J., Fox R. Evolution and technological change: A new metaphor for economic history? Technological Change, Methods and Themes in the History of Technology (1996) (Harwood, Oxford, UK) Google Scholar
  • Nelson R., Winter S.An Evolutionary Theory of Economic Change (1982) (Harvard University Press, Cambridge, UK) Google Scholar
  • Reinganum J. F. Innovation and industry evolution. The Quart. J. Econom. (1985) CrossrefGoogle Scholar
  • Rogers E. M., Kraemer K. L. The “critical mass” in the diffusion of interactive technologies in organizations. The Information Systems Research Challenge: Survey Research Methods (1991) (Harvard Business School Press, Boston, MA) 245–271Chapter 8Google Scholar
  • Rosenkopf L., Tushman M. L., Baum J. A. C., Singh J. V. The coevolution of technology and organizations. Evolutionary Dynamics of Organizations (1994) (Oxford University Press, Oxford, UK) 403–424Google Scholar
  • Sastry M. A. Problems and paradoxes in a theoretical model of punctuated organizational change. Admin. Sci. Quart. (1997) 42(2):237–275CrossrefGoogle Scholar
  • Schelling T. C.Micromotives and Macrobehavior (1978) (Norton, New York) Google Scholar
  • Silverberg G., Dosi G., Orsenigo L., Freeman C. Innovation, diversity and diffusion: A self-organizing model. The Economics of Innovation (1990) (Elgar, Hants, England) 68–104Google Scholar
  • Tushman M. L., Romanelli E. Organizational evolution: A metamorphosis model of convergence and reorientation. Res. Organ. Behavior (1985) 7:171–222Google Scholar
  • Tushman M. L., Anderson P. Technological discontinuities and organizational environments. Admin. Sci. Quart. (1986) 31:439–465CrossrefGoogle Scholar
  • Utterback J. M., Suárez F. F. Innovation, competition, and industry structure. Res. Policy (1993) 22:1–21CrossrefGoogle Scholar
  • van Kampen N. G.Stochastic Processes in Physics and Chemistry (1981) (North Holland, Amsterdam) Google Scholar
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