In productivity and efficiency analysis, the technical efficiency of a production unit is measured through its distance to the efficient frontier of the production set. The most familiar non-parametric methods use Farrell-Debreu, Shephard, or hyperbolic radial measures. These approaches require that inputs and outputs be non-negative, which can be problematic when using financial data. Recently, Chambers et al. (1998) have introduced directional distance functions which can be viewed as additive (rather than multiplicative) measures efficiency. Directional distance functions are not restricted to non-negative input and output quantities; in addition, the traditional input and output-oriented measures are nested as special cases of directional distance functions. Consequently, directional distances provide greater flexibility. However, until now, only FDH estimators (and their conditional and robust extensions) of directional distances have known statistical properties (Simar and Vanhems, 2010). This paper develops the statistical properties of directional DEA estimators, which are especially useful when the production set is assumed convex. We first establish that the directional DEA estimators share the known properties of the traditional radial DEA estimators. We then use these properties to develop consistent bootstrap procedures for statistical inference about directional distance, estimation of confidence intervals, and bias correction. The methods are illustrated in some empirical examples.
- C13: Estimation: General
- C14: Semiparametric and Nonparametric Methods: General
Léopold Simar, Anne Vanhems et Paul Wilson, « Statistical Inference for DEA Estimators of Directional Distances », European Journal of Operational Research, Elsevier, vol. 220, n° 3, août 2012, p. 853–864.
European Journal of Operational Research, Elsevier, vol. 220, n° 3, août 2012, p. 853–864