In the data envelopment analysis (DEA) literature, linear fractional non-cooperative network DEA models for two-stage network structures are often transformed into parametric linear models. The transformed parametric linear models are then solved by computing a series of linear models when the parameter is varied. For example, Wu, Zhu, Ji, Chu and Liang (2016) provide a linear fractional non-cooperative DEA model for analyzing the reuse of undesirable intermediate outputs in a two-stage production process with a shared resources and feedback. They transformed the linear fractional model into a parametric linear model. Such approaches do not guarantee that the global optimal solution is found. We show that (variants of) linear fractional non-cooperative network DEA models can be directly transformed into a linear programing model, without the need for solving parametric linear models. This greatly reduces the computational burden and the global optimal solution is always guaranteed.
[1]
Joe Zhu,et al.
DEA models for supply chain efficiency evaluation
,
2006,
Ann. Oper. Res..
[2]
Abraham Charnes,et al.
Measuring the efficiency of decision making units
,
1978
.
[3]
A. U.S.,et al.
Measuring the efficiency of decision making units
,
2003
.
[4]
W. Cook,et al.
Sales performance measurement in bank branches
,
2001
.
[5]
Abraham Charnes,et al.
Programming with linear fractional functionals
,
1962
.
[6]
Joe Zhu,et al.
DEA models for two‐stage processes: Game approach and efficiency decomposition
,
2008
.
[7]
Jie Wu,et al.
Two-stage network processes with shared resources and resources recovered from undesirable outputs
,
2016,
Eur. J. Oper. Res..
[8]
Joe Zhu,et al.
DEA model with shared resources and efficiency decomposition
,
2010,
Eur. J. Oper. Res..