A Generalized Maximum Entropy (GME) approach is adapted to empirically estimate crop-specific production technologies in Chinese agriculture. Despite a modest behavior assumption about equal marginal returns of non-land inputs among crops, this method does not require price information, which is usually distorted in a centrally planned economy such as China. Multi-output technologies for seven regions over more than two decades are estimated, and input allocations for each province are recovered simultaneously. The estimated multi-output production technology and input allocations imply that China may have greater grain production potentials than previously thought
China’s agricultural sector has developed very rapidly in the past 30 years and agricultural technol...
Dietary habits of Chinese people have transformed drastically over the past few decades, due to rapi...
In this paper, a nonparametric method is used to measure the total factor productivity (TFP) growth ...
A Generalized Maximum Entropy (GME) approach is adapted to empirically estimate crop-specific produc...
A generalized maximum entropy approach is adapted to empirically estimate crop-specific production t...
A Generalized Maximum Entropy (GME) approach is adapted to empirically estimate crop-specific produc...
Generalised maximum entropy methods are used to estimate a dual model of production on panel data of...
Purpose – The purpose of this paper is to outline a version of SinoTERM, a multi-regional computable...
Differences in resource endowment between regions influence the technologies applied in agriculture ...
Differences in resource endowment between regions influence the technologies applied in agriculture ...
The major objective of this article is to measure the inter-regional difference in agricultural prod...
The concentration of crop cultivation can be measured in terms of spatial clustering and of inequali...
Analyses were performed to evaluate the impact of resources and technological inputs on farm product...
Food security is the fundamental problem of sustainable socioeconomic development in China. Since th...
Optimizing crop planting structures under the influence of climate change and human activities is cr...
China’s agricultural sector has developed very rapidly in the past 30 years and agricultural technol...
Dietary habits of Chinese people have transformed drastically over the past few decades, due to rapi...
In this paper, a nonparametric method is used to measure the total factor productivity (TFP) growth ...
A Generalized Maximum Entropy (GME) approach is adapted to empirically estimate crop-specific produc...
A generalized maximum entropy approach is adapted to empirically estimate crop-specific production t...
A Generalized Maximum Entropy (GME) approach is adapted to empirically estimate crop-specific produc...
Generalised maximum entropy methods are used to estimate a dual model of production on panel data of...
Purpose – The purpose of this paper is to outline a version of SinoTERM, a multi-regional computable...
Differences in resource endowment between regions influence the technologies applied in agriculture ...
Differences in resource endowment between regions influence the technologies applied in agriculture ...
The major objective of this article is to measure the inter-regional difference in agricultural prod...
The concentration of crop cultivation can be measured in terms of spatial clustering and of inequali...
Analyses were performed to evaluate the impact of resources and technological inputs on farm product...
Food security is the fundamental problem of sustainable socioeconomic development in China. Since th...
Optimizing crop planting structures under the influence of climate change and human activities is cr...
China’s agricultural sector has developed very rapidly in the past 30 years and agricultural technol...
Dietary habits of Chinese people have transformed drastically over the past few decades, due to rapi...
In this paper, a nonparametric method is used to measure the total factor productivity (TFP) growth ...