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| Fisher-Pry Substitution Model× | Emerging Issues Analysis× | |
|---|---|---|
| Domaine | Futures Foresight Studies | Futures Foresight Studies |
| Famille | Process / pipeline | Process / pipeline |
| Année d'origine≠ | 1971 | 2009 |
| Auteur d'origine≠ | John C. Fisher & Robert H. Pry (General Electric) | Graham T. T. Molitor; Hawai'i School / Millennium Project |
| Type≠ | Logistic-growth forecasting pipeline for technological substitution | Early-detection pipeline for issues on the S-curve of public attention |
| Source fondatrice≠ | Fisher, J. C., & Pry, R. H. (1971). A simple substitution model of technological change. Technological Forecasting and Social Change, 3, 75-88. DOI ↗ | Glenn, J. C., & Gordon, T. J. (Eds.). (2009). Futures Research Methodology, Version 3.0. The Millennium Project. ISBN: 9780981894119 |
| Alias | Fisher-Pry Model, Technological Substitution Model, Logistic Substitution Forecasting, Fisher-Pry Curve | Emerging Issue Analysis, EIA, Issues Emergence Analysis, Weak Signal Scanning |
| Apparentées≠ | 2 | 3 |
| Résumé≠ | The Fisher-Pry Substitution Model, introduced by John Fisher and Robert Pry of General Electric in 1971, is a foundational technique for forecasting technological substitution — the process by which a new technology displaces an older one. Its empirical premise, supported by dozens of historical cases from synthetic to natural materials and from one manufacturing process to another, is that the fractional market share captured by the new technology follows a logistic (S-shaped) growth curve. The model's elegance lies in a transformation: when the takeover ratio f/(1-f), the ratio of the new technology's share to the old's, is plotted on a logarithmic scale against time, the substitution traces a straight line. This linearization makes it easy to fit, interpret, and extrapolate substitutions from sparse early data, which is why the Fisher-Pry curve remains a workhorse of technological forecasting. | Emerging Issues Analysis (EIA) is a horizon-scanning method, associated with Graham Molitor and the Hawai'i School and codified in the Millennium Project's Futures Research Methodology, for detecting issues at the earliest, weakest-signal stage — long before they register as trends or reach public consciousness. Its organizing idea is that issues, like technologies, follow an S-curve of public attention: they begin in obscure, marginal sources, accelerate as advocates and specialists pick them up, and only later become widely recognized trends and finally mainstream concerns. The strategic value of catching an issue on the flat, early part of that curve is enormous, because that is when there is the most time and the most room to respond. EIA therefore deliberately scans the fringe — specialist literature, activist publications, patents, subcultures, marginal voices — to spot the small clouds on the horizon and position them on the issue lifecycle. |
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