TY - GEN AU - 강혜정 PY - 2007/11 UR - http://repository.krei.re.kr/handle/2018.oak/18764 AB - This paper analyzes the productivity growth in Korean agriculture with data on multiple crops over the five years from 1998 to 2002. Measurements are obtained from the estimation of a non-frontier multi-output production function. Multi-output production technology is characterized with a transformation function. For empirical analysis, this study employs the generalized linear transformation function, which extends a linear functional form by allowing a full set of interactions among arguments in the function. The results find that technological change has led a significant productivity change. Larger farms experience the highest rate of productivity growth by the greatest rate of scale effect. More human capital also leads higher productivity growth rates. AB - This paper analyzes the productivity growth in Korean agriculture with data on multiple crops over the five years from 1998 to 2002. Measurements are obtained from the estimation of a non-frontier multi-output production function. Multi-output production technology is characterized with a transformation function. For empirical analysis, this study employs the generalized linear transformation function, which extends a linear functional form by allowing a full set of interactions among arguments in the function. The results find that technological change has led a significant productivity change. Larger farms experience the highest rate of productivity growth by the greatest rate of scale effect. More human capital also leads higher productivity growth rates. PB - 한국농촌경제연구원 TI - Multi-Output Productivity Change for Korean Agriculture: Non-Frontier Primal Measure with Farm-Level Panel Data TT - Multi-Output Productivity Change for Korean Agriculture: Non-Frontier Primal Measure with Farm-Level Panel Data EP - 18 SP - 1 TA - Kang, Hyejung KW - multi-output production technology KW - productivity change KW - transformation function KW - panel data KW - multi-output production technology KW - productivity change KW - transformation function KW - panel data ER -