TY - JOUR
T1 - Partially Convex Production Technology and Efficiency Measurement
AU - Li, Sung Ko
AU - TSANG, Chun Kei
AU - Lee, Shu Kam
N1 - The work described in this paper was substantially supported
by a grant from the Research Grants Council of the Hong Kong
Special Administrative Region, China (UGC/FDS15/E02/21) and
partially supported by a grant from the Hong Kong Shue Yan University (URG/20/01).
Publisher copyright:
© The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2024
PY - 2024/1/12
Y1 - 2024/1/12
N2 - Economists tend to believe that production technology should exhibit increasing returns to scale first and then constant and finally decreasing returns to scale, called regular variable returns to scale (RVRS) in this paper. Further, a special pattern of RVRS production technology when there is only one output is the production function that has an S-shaped curve along any ray of inputs from the origin. In the literature on efficiency analysis, the most frequently used empirical technology is the variable returns to scale (VRS) production technology. Although it exhibits RVRS, it is unable to model nonconvex production technologies, such as the S-shaped production function. Recently, a new empirical production technology has been introduced to capture RVRS with partial convexity. This paper explores its relationship with efficiency measurement. Furthermore, a novel empirical production technology that can better capture the characteristics of the S-shaped production function is proposed. These two new production technologies provide better alternatives to the commonly used Free Disposal Hull (FDH) production technology in non-convex production with RVRS. Our new production technology is illustrated using US manufacturing industry data. If one believes that the production technology is partially convex and exhibits RVRS, it is found that the conventional VRS production technology overestimates the technical inefficiency of small production units under this belief.
AB - Economists tend to believe that production technology should exhibit increasing returns to scale first and then constant and finally decreasing returns to scale, called regular variable returns to scale (RVRS) in this paper. Further, a special pattern of RVRS production technology when there is only one output is the production function that has an S-shaped curve along any ray of inputs from the origin. In the literature on efficiency analysis, the most frequently used empirical technology is the variable returns to scale (VRS) production technology. Although it exhibits RVRS, it is unable to model nonconvex production technologies, such as the S-shaped production function. Recently, a new empirical production technology has been introduced to capture RVRS with partial convexity. This paper explores its relationship with efficiency measurement. Furthermore, a novel empirical production technology that can better capture the characteristics of the S-shaped production function is proposed. These two new production technologies provide better alternatives to the commonly used Free Disposal Hull (FDH) production technology in non-convex production with RVRS. Our new production technology is illustrated using US manufacturing industry data. If one believes that the production technology is partially convex and exhibits RVRS, it is found that the conventional VRS production technology overestimates the technical inefficiency of small production units under this belief.
KW - Data Envelopment Analysis
KW - Partial convexity
KW - Regular variable returns to scale
KW - S-shaped production function
KW - Technical efficiency
UR - http://www.scopus.com/inward/record.url?scp=85182186350&partnerID=8YFLogxK
U2 - 10.1007/s11123-023-00716-w
DO - 10.1007/s11123-023-00716-w
M3 - Journal article
SN - 0895-562X
VL - 62
SP - 303
EP - 320
JO - Journal of Productivity Analysis
JF - Journal of Productivity Analysis
IS - 3
ER -