Add to ORKGIn this paper we ask how technological differences in manufacturing across countries can best be modeled when using a standard production function approach. We show that it is important to allow for differences in technology as measured by differences in parameters. Of similar importance are time-series properties of the data and the role of dynamic processes, which can be thought of as aspects of technological change. Regarding the latter we identify both an element that is common across all countries and a part which is country-specific. The estimator we develop, which we term the Augmented Mean Group estimator (AMG), is closely related to the Mean Group version of the Pesaran (2006) Common Correlated Effects estimator. Once we allow for ...
Since the seminal contribution of Gregory Mankiw, David Romer and David Weil (1992), the growth empi...
Abstract: In this paper we add new results to the emerging field of investigating productivity level...
We construct 14 alternative measures of technological progress for 19 OECD countries over the period...
In this paper we ask how technological differences in manufacturing across countries can best be mod...
In this paper we ask how technological differences in manufacturing across countries can best be mod...
In this paper we ask how technological differences in manufacturing across countries can best be mod...
In this paper we ask how technological differences in manufacturing production across countries can ...
In this paper we ask how technological differences in manufacturing production across countries can ...
Why do we observe such dramatic differences in labour productivity across countries in the macro dat...
The empirical growth literature is dominated by accounting and regression methods which assume commo...
Despite the widely recognised importance of the manufacturing industry for successful development fe...
This paper investigates the forces driving output growth, namely technological, efficiency, and inpu...
We employ a recent empirical strategy to estimate country-specific and time-varying total factor pro...
The Neo-classical model of international trade assumes that the total factor productivity (TFP) of a...
This contribution is based on the notion that different technologies are present in an industry. The...
Since the seminal contribution of Gregory Mankiw, David Romer and David Weil (1992), the growth empi...
Abstract: In this paper we add new results to the emerging field of investigating productivity level...
We construct 14 alternative measures of technological progress for 19 OECD countries over the period...
In this paper we ask how technological differences in manufacturing across countries can best be mod...
In this paper we ask how technological differences in manufacturing across countries can best be mod...
In this paper we ask how technological differences in manufacturing across countries can best be mod...
In this paper we ask how technological differences in manufacturing production across countries can ...
In this paper we ask how technological differences in manufacturing production across countries can ...
Why do we observe such dramatic differences in labour productivity across countries in the macro dat...
The empirical growth literature is dominated by accounting and regression methods which assume commo...
Despite the widely recognised importance of the manufacturing industry for successful development fe...
This paper investigates the forces driving output growth, namely technological, efficiency, and inpu...
We employ a recent empirical strategy to estimate country-specific and time-varying total factor pro...
The Neo-classical model of international trade assumes that the total factor productivity (TFP) of a...
This contribution is based on the notion that different technologies are present in an industry. The...
Since the seminal contribution of Gregory Mankiw, David Romer and David Weil (1992), the growth empi...
Abstract: In this paper we add new results to the emerging field of investigating productivity level...
We construct 14 alternative measures of technological progress for 19 OECD countries over the period...