Modeling Technical Progress and Total Factor Productivity: A Plant Level Example

Modeling Technical Progress and Total Factor Productivity: A Plant Level Example

Shifts in the production frontier occur because of changes in technology. A model of how a firm learns to use the new technology, or how it adapts from the first production frontier to the second, is suggested. Two different adaptation paths are embodied in a translog cost function and its attendant...

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Veröffentlicht in:Journal of productivity analysis 1989-03, Vol.1 (1), p.21-42
Hauptverfasser: KOKKELENBERG, EDWARD C., VAN NGUYEN, SANG
Format: Artikel
Sprache:eng
Schlagworte:
Capital costs
Cost estimation models
Cost functions
Economic models
Emerging technology
Fuel oils
Glass
Glass industry
Productivity
Proxy reporting
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Zusammenfassung:Shifts in the production frontier occur because of changes in technology. A model of how a firm learns to use the new technology, or how it adapts from the first production frontier to the second, is suggested. Two different adaptation paths are embodied in a translog cost function and its attendant cost share equations. The paths are the traditional linear time trend and a learning curve. The model is estimated using establishment level data from a non-regulated industry that underwent a technological shift in the time period covered by the data. The learning curve resulted in more plausible estimates of technical progress and total factor productivity growth patterns. A significant finding is that at the establishment level, all inputs appear to be substitutes.
ISSN:0895-562X
1573-0441
DOI:10.1007/BF00161737