Super Efisiensi dengan Model Data En- velopment Analysis 2-Tahap
DAFTAR PUSTAKA
Afriat, S.N. (1972). Efficiency estimation of production functions, International
Economic Review, Vol.13, No.3, pp.568-598.
Agrell, P.J. and Bogetoft, P. (2013). Smart-grid investments, regulation and organization, Energy Policy, Elsevier, Vol.52, pp.656-666.
Andersen, P. and Petersen, N.C. (1993). A procedure for ranking efficient units in
data envelopment analysis, Management Science, Vol.39, pp.1261-1264.
Banker, R.D., Charnes, A. and Cooper, W.W. (1984). Some model for estimating
technical and scale efficiencies in data envelopment analysis, Management
Science, Vol.30, pp.1078-1092.
Banker, R.D. and Thrall, R.M. (1992). Estimation of returns to scale using data envelopment analysis, European Journal of Operational Research, Vol.62,
No.1, pp.74-84.
Banker, R.D. and Natarajan, R. (2008). Evaluating contextual variables affecting
productivity using data envelopment analysis, Operations Research, Vol.56,
pp.48-58.
Berg, SV. (2010). Water utility benchmarking: Measurement, methodology and
performance incentives. Article, University of Florida, USA.
Charnes, A., Cooper, W.W., and Rhodes,E. (1978). Measuring the efficiency of decision making units,European Journal of Operational Research, Vol.2, pp.429444.
Charnes, A., Cooper, W.W., Lewin, A.Y., and Seiford, L.M.(Eds.). (1994). Data envelopment analysis: Theory, methodology, and applications. Boston:
Kluwer.
Coelli, T.J., Rao, D.S.P., O’Donnell, C.J. and Battese, G.E. (2005). An introduction to efficiency and productivity analysis, 2nd edition, Springer Science and
Business Media, Inc., New York, USA.
Cooper, W.W., Seiford, L.M., and Tone, K. (2000). Data Envelopment Analysis,
Kluwer Academic Publishers.
Cooper, W.W., Seiford, L.M. and Tone, K. (2006). Introduction to data envelopment analysis and its uses, Springer Science and Business Media, Inc., New
York, USA.
Ebadi, S. (2012). Using a super efficiency model for ranking units in DEA, Applied
Mathematical Sciences, Vol.6, No.41, pp.2043-2048.
F¨
are, R., Grosskopf, S. and Lovell, C.A.K. (1983). The structure of technical efficiency, Scandinavian Journal of Economics, Vol.85, No.2, pp.181-190.
Hoff, A. (2007). Second stage DEA: comparison of approaches for modelling the
DEA score, European Journal of Operational Research, Vol.181, pp.425-435.
Lotfi, F.H., Eshlaghy, A.T., Shafiee, M., Saleh, H., Nikoomaram, H., and Seyedhoseini, S.M. (2012). A new two-stage DEA model for evaluating the bank performance of banks, African Journal of Business Management, Vol.6, No.24,
pp.7230-7241.
32
Universitas Sumatera Utara
33
Lovell, C.A.K. (1994). Linear programming approaches to the measurement and
analysis of productive efficiency, Journal of Spanish Society of Statistics and
Operations Research, Springer, Vol.2, No.2, pp.175-248.
Lovell, C.A.K. and Rouse, APB. (2003). Equivalent standard DEA models to
provide super-efficiency scores, Journal of the Operational Research Society,
Vol.54, pp.101-108.
McDonald, J. (2009). Allowing the different frontier and sub-frontier relationships
in second stage DEA efficiency analysis, Lecture notes, Flinders Business
School, Flinders University.
Ramalho, E.A., Ramalho, J.J.S., and Henriques, P.D. (2010). Fractional regression models for second stage DEA efficiency analysis, Journal of Productivity
Analysis, Vol.34, No.3, pp.239-255.
Seiford, L.M. and Thrall, R.M. (1990). Recent developments in DEA, Journal of
Econometrics, Vol.46, No.3, pp.7-38.
Simar, L. and Wilson, P.M. (2011). Two-stage DEA: Caveat emptor, Journal of
Productivity Analysis, Vol.36, No.2, pp.205-218.
Thanassoulis, E. (2001). The use of data envelopment analysis in the regulation of
UK water utilities, European Journal of Operational Research, Vol.126, No.2,
pp.436-453.
Yun, Y.B., Nakayama, H. and Tanino, T. (2003). A generalized model for data
envelopment analysis, European Journal of Operational Research, Vol.157,
87-105.
Xu, G. and Dan, B. (2012). New DEA ranking methods based on efficient and antiefficient frontiers, International e-Journal of Business & Technology Leadership, Vol.1, No.1, pp.85-94.
Universitas Sumatera Utara
Afriat, S.N. (1972). Efficiency estimation of production functions, International
Economic Review, Vol.13, No.3, pp.568-598.
Agrell, P.J. and Bogetoft, P. (2013). Smart-grid investments, regulation and organization, Energy Policy, Elsevier, Vol.52, pp.656-666.
Andersen, P. and Petersen, N.C. (1993). A procedure for ranking efficient units in
data envelopment analysis, Management Science, Vol.39, pp.1261-1264.
Banker, R.D., Charnes, A. and Cooper, W.W. (1984). Some model for estimating
technical and scale efficiencies in data envelopment analysis, Management
Science, Vol.30, pp.1078-1092.
Banker, R.D. and Thrall, R.M. (1992). Estimation of returns to scale using data envelopment analysis, European Journal of Operational Research, Vol.62,
No.1, pp.74-84.
Banker, R.D. and Natarajan, R. (2008). Evaluating contextual variables affecting
productivity using data envelopment analysis, Operations Research, Vol.56,
pp.48-58.
Berg, SV. (2010). Water utility benchmarking: Measurement, methodology and
performance incentives. Article, University of Florida, USA.
Charnes, A., Cooper, W.W., and Rhodes,E. (1978). Measuring the efficiency of decision making units,European Journal of Operational Research, Vol.2, pp.429444.
Charnes, A., Cooper, W.W., Lewin, A.Y., and Seiford, L.M.(Eds.). (1994). Data envelopment analysis: Theory, methodology, and applications. Boston:
Kluwer.
Coelli, T.J., Rao, D.S.P., O’Donnell, C.J. and Battese, G.E. (2005). An introduction to efficiency and productivity analysis, 2nd edition, Springer Science and
Business Media, Inc., New York, USA.
Cooper, W.W., Seiford, L.M., and Tone, K. (2000). Data Envelopment Analysis,
Kluwer Academic Publishers.
Cooper, W.W., Seiford, L.M. and Tone, K. (2006). Introduction to data envelopment analysis and its uses, Springer Science and Business Media, Inc., New
York, USA.
Ebadi, S. (2012). Using a super efficiency model for ranking units in DEA, Applied
Mathematical Sciences, Vol.6, No.41, pp.2043-2048.
F¨
are, R., Grosskopf, S. and Lovell, C.A.K. (1983). The structure of technical efficiency, Scandinavian Journal of Economics, Vol.85, No.2, pp.181-190.
Hoff, A. (2007). Second stage DEA: comparison of approaches for modelling the
DEA score, European Journal of Operational Research, Vol.181, pp.425-435.
Lotfi, F.H., Eshlaghy, A.T., Shafiee, M., Saleh, H., Nikoomaram, H., and Seyedhoseini, S.M. (2012). A new two-stage DEA model for evaluating the bank performance of banks, African Journal of Business Management, Vol.6, No.24,
pp.7230-7241.
32
Universitas Sumatera Utara
33
Lovell, C.A.K. (1994). Linear programming approaches to the measurement and
analysis of productive efficiency, Journal of Spanish Society of Statistics and
Operations Research, Springer, Vol.2, No.2, pp.175-248.
Lovell, C.A.K. and Rouse, APB. (2003). Equivalent standard DEA models to
provide super-efficiency scores, Journal of the Operational Research Society,
Vol.54, pp.101-108.
McDonald, J. (2009). Allowing the different frontier and sub-frontier relationships
in second stage DEA efficiency analysis, Lecture notes, Flinders Business
School, Flinders University.
Ramalho, E.A., Ramalho, J.J.S., and Henriques, P.D. (2010). Fractional regression models for second stage DEA efficiency analysis, Journal of Productivity
Analysis, Vol.34, No.3, pp.239-255.
Seiford, L.M. and Thrall, R.M. (1990). Recent developments in DEA, Journal of
Econometrics, Vol.46, No.3, pp.7-38.
Simar, L. and Wilson, P.M. (2011). Two-stage DEA: Caveat emptor, Journal of
Productivity Analysis, Vol.36, No.2, pp.205-218.
Thanassoulis, E. (2001). The use of data envelopment analysis in the regulation of
UK water utilities, European Journal of Operational Research, Vol.126, No.2,
pp.436-453.
Yun, Y.B., Nakayama, H. and Tanino, T. (2003). A generalized model for data
envelopment analysis, European Journal of Operational Research, Vol.157,
87-105.
Xu, G. and Dan, B. (2012). New DEA ranking methods based on efficient and antiefficient frontiers, International e-Journal of Business & Technology Leadership, Vol.1, No.1, pp.85-94.
Universitas Sumatera Utara