809 | -- | 812 | Josef Jablonský, Ali Emrouznejad, Mehdi Toloo. Editorial: Special issue on data envelopment analysis |
813 | -- | 846 | Martin Bod'a, Martin Dlouhý, Emília Zimková. Unobservable or omitted production variables in data envelopment analysis through unit-specific production trade-offs |
847 | -- | 859 | Petr Fiala. Project portfolio designing using data envelopment analysis and De Novo optimisation |
861 | -- | 885 | Jing Fu. Two-stage data envelopment analysis with undesirable intermediate measures: an application to air quality improvement in China |
887 | -- | 907 | Margaréta Halická, Mária Trnovská. Negative features of hyperbolic and directional distance models for technologies with undesirable outputs |
909 | -- | 932 | Adel Hatami-Marbini, Saber Saati, Seyed Mojtaba Sajadi. Efficiency analysis in two-stage structures using fuzzy data envelopment analysis |
933 | -- | 950 | Vladimír Holý, Karel Safr. Are economically advanced countries more efficient in basic and applied research? |
951 | -- | 966 | Josef Jablonsky. Ranking of countries in sporting events using two-stage data envelopment analysis models: a case of Summer Olympic Games 2016 |
967 | -- | 983 | Markéta Matulová, Hana Fitzová. Transformation of urban public transport financing and its effect on operators' efficiency: evidence from the Czech Republic |
985 | -- | 1004 | Jesús T. Pastor, Juan Aparicio, Javier Alcaraz, Fernando Vidal, Diego Pastor. Bounded directional distance function models |
1005 | -- | 1025 | Yingying Shao, Gongbing Bi, Feng Yang 0005, Qiong Xia. Resource allocation for branch network system with considering heterogeneity based on DEA method |
1027 | -- | 1051 | Mehdi Toloo, Soroosh Nalchigar, Babak Sohrabi. Selecting most efficient information system projects in presence of user subjective opinions: a DEA approach |
1053 | -- | 1068 | Qiwei Xie, Yuanyuan Li, Lizheng Wang, Chao Liu. Improving discrimination in data envelopment analysis without losing information based on Renyi's entropy |