References
- Benayoun, R., De Montgolfier, J., Tergny, J. and Larichev, O., “Linear Programming and Multiple Objective Functions: STEP Method” (STEM), Mathematical Programming, 1(3), 366–375,1971.
- Despontin, M., “Interactive Economic Policy Formulation with Multiregional Econometric Models, in Despontin, Nigkam and Spronk”, Macro Plarining with Confiicting Goals, Springer Verlaig, Berlin, 1984.
- Goicoechea, A., Hansen, D.R., and Duckstein, L., Multiobjective Decision Anafysis with Engineering and Business Application, John Wiley, New York, 1982.
- Roy, B., “Main Sources of Inaccurate Determination, Uncertainty and Imprecision in Decision Models”, Mathematical and Computer Modelling, yol.l2, no.10–11, 1245–1254,1989.
- Slowinski, R., “A Multicriteria Fuzzy Linear Programming Method for Water Supply System Development Planning”, Fuzzy Sets and Systems, 19(1), 1–21,1986.
- Steuer, R., “Algorithims for linear programming problems with interval objective function coefficients”. Mathematics of O.R, 6, 1981, p. 333–348.
- Teghem, J., Dufrane, D., Thauvoye, M., and Kunsch, P., Strange: “An Interactive Method for Multiobjective Linear Programming Under Uncertainty”, E.J.O.R, 26(1), 65–82,1986.
- Urli, B., Nadeau, R., “Multiobjective Stochastic Linear Programming With Incomplete Information: a General Methodology”, in Stochastic versus Fuzzy Approaches to Multiobjective Mathematical Programming Under Uncertainty, Slowinski R. and Teghem J. (eds), Kluwer Acad. Pub., Netherlands, 1990.