How to cite this paper
Salehi, K. (2015). A hybrid fuzzy MCDM approach for project selection problem.Decision Science Letters , 4(1), 109-116.
Refrences
Amiri, M. P. (2010). Project selection for oil-fields development by using the AHP and fuzzy TOPSIS methods. Expert Systems with Applications, 37(9), 6218-6224.
Ansoff, H. I. (1970). Corporate strategy: An analytic approach to business policy for growth and expansion. Penguin books.
Badri, M. A., Davis, D., & Davis, D. (2001). A comprehensive 0–1 goal programming model for project selection. International Journal of Project Management, 19(4), 243-252.
Carlsson, C., Fullér, R., Heikkil?, M., & Majlender, P. (2007). A fuzzy approach to R & D project portfolio selection. International Journal of Approximate Reasoning, 44(2), 93-105.
Chen, S. H., & Hsieh, C. H. (1999). Graded mean integration representation of generalized fuzzy number. Journal of Chinese Fuzzy Systems, 5(2), 1-7.
Chu, M. T., Shyu, J., Tzeng, G. H., & Khosla, R. (2007). Comparison among three analytical methods for knowledge communities group-decision analysis. Expert Systems with Applications, 33(4), 1011-1024.
Daneshvar Rouyendegh, B., & Erol, S. (2012). Selecting the best project using the Fuzzy ELECTRE Method. Mathematical Problems in Engineering, 2012.
Enea, M., & Piazza, T. (2004). Project selection by constrained fuzzy AHP. Fuzzy Optimization and Decision Making, 3(1), 39-62.
Fréville, A. (2004). The multidimensional 0–1 knapsack problem: An overview. European Journal of Operational Research, 155(1), 1-21.
Gabriel, S. A., Kumar, S., Ordonez, J., & Nasserian, A. (2006). A multiobjective optimization model for project selection with probabilistic considerations. Socio-Economic Planning Sciences, 40(4), 297-313.
Hall, N. G., Hershey, J. C., Kessler, L. G., & Stotts, R. C. (1992). A model for making project funding decisions at the National Cancer Institute. Operations Research, 40(6), 1040-1052.
Hawkins, C. A., & Adams, R. A. (1974). A goal programming model for capital budgeting. Financial Management, 52-57.
Huang, X. (2007). Optimal project selection with random fuzzy parameters. International journal of production economics, 106(2), 513-522.
Ignizio, J. P. (1976). An approach to the capital budgeting problem with multiple objectives. The Engineering Economist, 21(4), 259-272.
Lorie, J. H., & Savage, L. J. (1955). Three problems in rationing capital. The Journal of Business, 28(4), 229-239.
Lu, J., Zhang, G., & Ruan, D. (2007). Multi-objective group decision making: methods, software and applications with fuzzy set techniques. Imperial College Press.
Mahmoodzadeh, S., Shahrabi, J., Pariazar, M., & Zaeri, M. S. (2007). Project selection by using fuzzy AHP and TOPSIS technique. World Academy of Science, Engineering and Technology, 30, 333-338.
Medaglia, A. L., Graves, S. B., & Ringuest, J. L. (2007). A multiobjective evolutionary approach for linearly constrained project selection under uncertainty. European Journal of Operational Research, 179(3), 869-894.
Mohanty, R. P. (1992). Project selection by a multiple-criteria decision-making method: an example from a developing country. International Journal of Project Management, 10(1), 31-38.
Mohanty, R. P., Agarwal, R., Choudhury, A. K., & Tiwari, M. K. (2005). A fuzzy ANP-based approach to R & D project selection: a case study. International Journal of Production Research, 43(24), 5199-5216.
Opricovic, S., & Tzeng, G. H. (2002). Multicriteria planning of post?earthquake sustainable reconstruction. Computer?Aided Civil and Infrastructure Engineering, 17(3), 211-220.
Opricovic, S., & Tzeng, G. H. (2004). Compromise solution by MCDM methods: A comparative analysis of VIKOR and TOPSIS. European Journal of Operational Research, 156(2), 445-455.
Rabbani, M., Aramoon Bajestani, M., & Baharian Khoshkhou, G. (2010). A multi-objective particle swarm optimization for project selection problem. Expert Systems with Applications, 37(1), 315-321.
Rabbani, M., Tavakkoli-Moghaddam, R., Jolai Ghazvini, F., & Ghorbani, H. R. (2006). A Comprehensive Model for R and D Project Portfolio Selection with Zero-One Linear Goal-Programming (RESEARCH NOTE).
International Journal of Engineering-Transactions A: Basics, 19(1), 55.
Raei, R., & Jahromi, M. (2012). Portfolio optimization using a hybrid of fuzzy ANP, VIKOR and TOPSIS. Management Science Letters, 2(7), 2473-2484.
Saaty, T. L., Rogers, P. C., & Pell, R. (1980). Portfolio selection through hierarchies. The Journal of Portfolio Management, 6(3), 16-21.
Satty, T. L. (1980). The Analytic hierarchy Process.
Tiryaki, F., & Ahlatcioglu, B. (2009). Fuzzy portfolio selection using fuzzy analytic hierarchy process. Information Sciences, 179(1), 53-69.
Weingartner, H. M. (1966). Capital budgeting of interrelated projects: survey and synthesis. Management Science, 12(7), 485-516.
Weingartner, H. M. (1966). Criteria for programming investment project selection. The Journal of Industrial Economics, 65-76.
Yavuz, S., & Captain, T. A. (2002). Making project selection decisions: a multi-period capital budgeting problem. International Journal of Industrial Engineering, 9(3), 301-310.
Zeleny, M. (1982). Multiple criteria decision making (Vol. 25). J. L. Cochrane (Ed.). New York: McGraw-Hill.
Ansoff, H. I. (1970). Corporate strategy: An analytic approach to business policy for growth and expansion. Penguin books.
Badri, M. A., Davis, D., & Davis, D. (2001). A comprehensive 0–1 goal programming model for project selection. International Journal of Project Management, 19(4), 243-252.
Carlsson, C., Fullér, R., Heikkil?, M., & Majlender, P. (2007). A fuzzy approach to R & D project portfolio selection. International Journal of Approximate Reasoning, 44(2), 93-105.
Chen, S. H., & Hsieh, C. H. (1999). Graded mean integration representation of generalized fuzzy number. Journal of Chinese Fuzzy Systems, 5(2), 1-7.
Chu, M. T., Shyu, J., Tzeng, G. H., & Khosla, R. (2007). Comparison among three analytical methods for knowledge communities group-decision analysis. Expert Systems with Applications, 33(4), 1011-1024.
Daneshvar Rouyendegh, B., & Erol, S. (2012). Selecting the best project using the Fuzzy ELECTRE Method. Mathematical Problems in Engineering, 2012.
Enea, M., & Piazza, T. (2004). Project selection by constrained fuzzy AHP. Fuzzy Optimization and Decision Making, 3(1), 39-62.
Fréville, A. (2004). The multidimensional 0–1 knapsack problem: An overview. European Journal of Operational Research, 155(1), 1-21.
Gabriel, S. A., Kumar, S., Ordonez, J., & Nasserian, A. (2006). A multiobjective optimization model for project selection with probabilistic considerations. Socio-Economic Planning Sciences, 40(4), 297-313.
Hall, N. G., Hershey, J. C., Kessler, L. G., & Stotts, R. C. (1992). A model for making project funding decisions at the National Cancer Institute. Operations Research, 40(6), 1040-1052.
Hawkins, C. A., & Adams, R. A. (1974). A goal programming model for capital budgeting. Financial Management, 52-57.
Huang, X. (2007). Optimal project selection with random fuzzy parameters. International journal of production economics, 106(2), 513-522.
Ignizio, J. P. (1976). An approach to the capital budgeting problem with multiple objectives. The Engineering Economist, 21(4), 259-272.
Lorie, J. H., & Savage, L. J. (1955). Three problems in rationing capital. The Journal of Business, 28(4), 229-239.
Lu, J., Zhang, G., & Ruan, D. (2007). Multi-objective group decision making: methods, software and applications with fuzzy set techniques. Imperial College Press.
Mahmoodzadeh, S., Shahrabi, J., Pariazar, M., & Zaeri, M. S. (2007). Project selection by using fuzzy AHP and TOPSIS technique. World Academy of Science, Engineering and Technology, 30, 333-338.
Medaglia, A. L., Graves, S. B., & Ringuest, J. L. (2007). A multiobjective evolutionary approach for linearly constrained project selection under uncertainty. European Journal of Operational Research, 179(3), 869-894.
Mohanty, R. P. (1992). Project selection by a multiple-criteria decision-making method: an example from a developing country. International Journal of Project Management, 10(1), 31-38.
Mohanty, R. P., Agarwal, R., Choudhury, A. K., & Tiwari, M. K. (2005). A fuzzy ANP-based approach to R & D project selection: a case study. International Journal of Production Research, 43(24), 5199-5216.
Opricovic, S., & Tzeng, G. H. (2002). Multicriteria planning of post?earthquake sustainable reconstruction. Computer?Aided Civil and Infrastructure Engineering, 17(3), 211-220.
Opricovic, S., & Tzeng, G. H. (2004). Compromise solution by MCDM methods: A comparative analysis of VIKOR and TOPSIS. European Journal of Operational Research, 156(2), 445-455.
Rabbani, M., Aramoon Bajestani, M., & Baharian Khoshkhou, G. (2010). A multi-objective particle swarm optimization for project selection problem. Expert Systems with Applications, 37(1), 315-321.
Rabbani, M., Tavakkoli-Moghaddam, R., Jolai Ghazvini, F., & Ghorbani, H. R. (2006). A Comprehensive Model for R and D Project Portfolio Selection with Zero-One Linear Goal-Programming (RESEARCH NOTE).
International Journal of Engineering-Transactions A: Basics, 19(1), 55.
Raei, R., & Jahromi, M. (2012). Portfolio optimization using a hybrid of fuzzy ANP, VIKOR and TOPSIS. Management Science Letters, 2(7), 2473-2484.
Saaty, T. L., Rogers, P. C., & Pell, R. (1980). Portfolio selection through hierarchies. The Journal of Portfolio Management, 6(3), 16-21.
Satty, T. L. (1980). The Analytic hierarchy Process.
Tiryaki, F., & Ahlatcioglu, B. (2009). Fuzzy portfolio selection using fuzzy analytic hierarchy process. Information Sciences, 179(1), 53-69.
Weingartner, H. M. (1966). Capital budgeting of interrelated projects: survey and synthesis. Management Science, 12(7), 485-516.
Weingartner, H. M. (1966). Criteria for programming investment project selection. The Journal of Industrial Economics, 65-76.
Yavuz, S., & Captain, T. A. (2002). Making project selection decisions: a multi-period capital budgeting problem. International Journal of Industrial Engineering, 9(3), 301-310.
Zeleny, M. (1982). Multiple criteria decision making (Vol. 25). J. L. Cochrane (Ed.). New York: McGraw-Hill.