| model_supereff {deaR} | R Documentation |
Radial super-efficiency basic DEA model
Description
Solve Andersen and Petersen radial Super-efficiency DEA model.
Usage
model_supereff(datadea,
dmu_eval = NULL,
dmu_ref = NULL,
supereff_modelname = c("basic"),
...)
Arguments
datadea |
An object of class |
dmu_eval |
A numeric vector containing which DMUs have to be evaluated.
If |
dmu_ref |
A numeric vector containing which DMUs are the evaluation reference set.
If |
supereff_modelname |
A string containing the name of the radial model to apply super-efficiency. |
... |
|
Note
(1) Radial super-efficiency model under variable (vrs, nirs, ndrs, grs) returns to scale can be infeasible for certain DMUs. See example 2.
(2) DMUs with infeasible solution are not shown in the results.
Author(s)
Vicente Coll-Serrano (vicente.coll@uv.es). Quantitative Methods for Measuring Culture (MC2). Applied Economics.
Vicente Bolós (vicente.bolos@uv.es). Department of Business Mathematics
Rafael Benítez (rafael.suarez@uv.es). Department of Business Mathematics
University of Valencia (Spain)
References
Andersen, P.; Petersen, N.C. (1993). "A procedure for ranking efficient units in data envelopment analysis", Management Science, 39, 1261-1264.
Tone, K. (2002). "A slacks-based measure of super-efficiency in data envelopment analysis", European Journal of Operational Research, 143, 32-41.
See Also
model_basic, model_sbmsupereff,
model_addsupereff
Examples
# Example 1.
# Replication of results in Tone (2002, p.38)
data("Power_plants")
data_example <- make_deadata(Power_plants,
ni = 4,
no = 2)
result <- model_supereff(data_example,
orientation = "io",
rts = "crs")
eff <- efficiencies(result)
# Example 2.
# Results of Super-efficiency with vrs returns to scale show infeasibility solutions
# for DMUs D4 and D6 (these DMUs are not shown in deaR results).
data("Power_plants")
data_example2 <- make_deadata(Power_plants,
ni = 4,
no = 2)
result2 <- model_supereff(data_example2,
orientation = "io",
rts = "vrs")
eff2 <- efficiencies(result2)