On single-stage DEA models with weight restrictions
Résumé
The literature on data envelopment analysis (DEA)often employs multiplier models that incorporate very small(theoretically infinitesimal)lower bounds on the input and output weights. Computational problems arising from the solution of such programs are well-known. In this paper we identify an additional theoretical problem that may arise if such bounds are used in a multiplier model with weight restrictions. Namely, we show that the use of small lower bounds may lead to the identification of an efficient target with negative inputs. We suggest a corrected model that over comes this problem.
The literature on data envelopment analysis (DEA)often employs multiplier models that incorporate very small(theoretically infinitesimal)lower bounds on the input and output weights. Computational problems arising from the solution of such programs are well-known. In this paper we identify an additional theoretical problem that may arise if such bounds are used in a multiplier model with weight restrictions. Namely, we show that the use of small lower bounds may lead to the identification of an efficient target with negative inputs. We suggest a corrected model that over comes this problem.