How to cite this paper
Vommi, V. (2017). TOPSIS with statistical distances: A new approach to MADM.Decision Science Letters , 6(1), 49-66.
Refrences
Ahn, B. S. (2015). Extreme point-based multi-attribute decision analysis with incomplete information. European Journal of Operational Research, 240(3), 748-755.
Barrett, J.H. (1970). Individual goals and organizational objectives: A study of integration mechanisms. University of Michigan press, Ann Arbor, Michigan.
Bass, S.J., & Kwakernaak, H. (1977). Rating and ranking of multi-aspects alternatives using fuzzy sets. Automatica, 13, 47-58.
Belton, V., & Gear, T. (1983). On a short-coming of Saaty's method of analytic hierarchies. Omega, 11(3), 228-230.
Besharati, B., Azarm, S., & Kannan, P. K. (2006). A decision support system for product design selection: A generalized purchase modeling approach. Decision Support Systems, 42(1), 333-350.
Brans, J.P., Mareschal, B., & Vincke, Ph. (1984), PROMITHEE: A new family of outranking methods in MCDM. Operational Research, 84, 477-490.
Chang, Y. C., & Mastrangelo, C. (2011). Addressing multicollinearity in semiconductor manufacturing. Quality and Reliability Engineering International, 27(6), 843-854.
Chatterjee, S., & Hadi, A. S. (2015). Regression analysis by example. John Wiley & Sons.
Chen, S. J., Hwang, C. L., & Hwang, F. P. (1992). Fuzzy multiple attribute decision making(methods and applications). Lecture Notes in Economics and Mathematical Systems.
Churchman, C.W., Ackoff, R.L., & Arnoff, E.L. (1957). Introduction to operations research. Wiley, New York.
Dasarathy, B.V. (1976). SMART: Similarity measure anchored ranking Ttechnique for the analysis of multidimensional data analysis. IEEE Transactions on Systems, Man and Cybernetics, SMC, 6(10), 708-711.
Deng, H., Yeh, C. H., & Willis, R. J. (2000). Inter-company comparison using modified TOPSIS with objective weights. Computers & Operations Research, 27(10), 963-973.
Figueira, J., Greco, S., & Ehrgott, M. (2004). Multiple criteria decision analysis; state of the art surveys. Springer, New York.
Hwang, C.L., & Yoon, K.P. (1981). Multiple attribute decision making: methods and applications. Lecture notes in Economics and Mathematical Systems, 186, Springer-Verlag, New York.
Jain, V., & Raj, T. (2015). Evaluating the intensity of variables affecting flexibility in FMS by Graph theory and matrix approach. International Journal of Industrial and Systems Engineering, 19 (2), 137-154.
Johnson, R.A., & Wichern, D.W. (2001). Applied Multivariate Statistical Analysis. 3rd Edition, Prentice Hall of India, New Delhi, India.
Keat, P.G., Young, P.K.Y., & Benerjee, S. (2009). Managerial Economics, 6th ed., Pearson Education Inc.
König, W., & Erinski, D. (1983). Machining and machinability of aluminium cast alloys. CIRP Annals-Manufacturing Technology, 32(2), 535-540.
Lootsma, F. A. (2007). Multi-criteria decision analysis via ratio and difference judgement (Vol. 29). Springer Science & Business Media.
MacCrimmon, K.R. (1968). Decision making among multiple-attribute alternatives: A survey and Consolidation approach. RAND Memorandum, RM_4823-ARPA.
Opricovic, S. (1998). Multicriteria optimization of civil engineering systems.Faculty of Civil Engineering, Belgrade, 2(1), 5-21.
Rao, R. V. (2007). Decision making in the manufacturing environment: using graph theory and fuzzy multiple attribute decision making methods. Springer Science & Business Media.
Roy, B. (1989). The outranking approach and the foundations of ELECTRE methods. University of Paris-Dauphine, Document Du Lamsade.
Roy, B. (1991). The outranking approach and the foundations of ELECTRE methods. Theory and decision, 31(1), 49-73.
Roy, B., & Vincke, P. (1981). Multicriteria analysis: survey and new directions. European Journal of Operational Research, 8(3), 207-218.
Saaty, T.L. (1980). The analytic hierarchy process. McGraw Hill, New York.
Saaty, T. L. (2000). Fundamentals of decision making and priority theory with the analytic hierarchy process (Vol. 6). Rws Publications.
Tzeng, G. H., & Huang, J. J. (2011). Multiple attribute decision making: methods and applications. CRC press.
Ullah, R., Zhou, D. Q., Zhou, P., & Baseer, M. (2015). A novel weight allocation and decision making method for space launch vehicle design concept selection. International Journal of Industrial and Systems Engineering, 19(2), 155-168.
Wang, T. Y., Shaw, C. F., & Chen, Y. L. (2000). Machine selection in flexible manufacturing cell: a fuzzy multiple attribute decision-making approach.International Journal of Production Research, 38(9), 2079-2097.
Yoon, K. (1980). Systems selection by Multiple Attribute Decision Making. Ph.D Dissertation, Kansas State University, Manhattan, Kansas.
Yu, P. L. (1973). A class of solutions for group decision problems.Management Science, 19(8), 936-946.
Zardari, N.H., Ahmed, K., Shirazi, S.M., & Yusop, Z.B. (2015). Weighting methods and their effects on multi-criteria decision making model outcomes in water resource management. Springer Briefs in Water Science and Technology, Springer.
Zeleny, M. (1982). Multiple criteria decision making. McGraw-Hill, New York.
Barrett, J.H. (1970). Individual goals and organizational objectives: A study of integration mechanisms. University of Michigan press, Ann Arbor, Michigan.
Bass, S.J., & Kwakernaak, H. (1977). Rating and ranking of multi-aspects alternatives using fuzzy sets. Automatica, 13, 47-58.
Belton, V., & Gear, T. (1983). On a short-coming of Saaty's method of analytic hierarchies. Omega, 11(3), 228-230.
Besharati, B., Azarm, S., & Kannan, P. K. (2006). A decision support system for product design selection: A generalized purchase modeling approach. Decision Support Systems, 42(1), 333-350.
Brans, J.P., Mareschal, B., & Vincke, Ph. (1984), PROMITHEE: A new family of outranking methods in MCDM. Operational Research, 84, 477-490.
Chang, Y. C., & Mastrangelo, C. (2011). Addressing multicollinearity in semiconductor manufacturing. Quality and Reliability Engineering International, 27(6), 843-854.
Chatterjee, S., & Hadi, A. S. (2015). Regression analysis by example. John Wiley & Sons.
Chen, S. J., Hwang, C. L., & Hwang, F. P. (1992). Fuzzy multiple attribute decision making(methods and applications). Lecture Notes in Economics and Mathematical Systems.
Churchman, C.W., Ackoff, R.L., & Arnoff, E.L. (1957). Introduction to operations research. Wiley, New York.
Dasarathy, B.V. (1976). SMART: Similarity measure anchored ranking Ttechnique for the analysis of multidimensional data analysis. IEEE Transactions on Systems, Man and Cybernetics, SMC, 6(10), 708-711.
Deng, H., Yeh, C. H., & Willis, R. J. (2000). Inter-company comparison using modified TOPSIS with objective weights. Computers & Operations Research, 27(10), 963-973.
Figueira, J., Greco, S., & Ehrgott, M. (2004). Multiple criteria decision analysis; state of the art surveys. Springer, New York.
Hwang, C.L., & Yoon, K.P. (1981). Multiple attribute decision making: methods and applications. Lecture notes in Economics and Mathematical Systems, 186, Springer-Verlag, New York.
Jain, V., & Raj, T. (2015). Evaluating the intensity of variables affecting flexibility in FMS by Graph theory and matrix approach. International Journal of Industrial and Systems Engineering, 19 (2), 137-154.
Johnson, R.A., & Wichern, D.W. (2001). Applied Multivariate Statistical Analysis. 3rd Edition, Prentice Hall of India, New Delhi, India.
Keat, P.G., Young, P.K.Y., & Benerjee, S. (2009). Managerial Economics, 6th ed., Pearson Education Inc.
König, W., & Erinski, D. (1983). Machining and machinability of aluminium cast alloys. CIRP Annals-Manufacturing Technology, 32(2), 535-540.
Lootsma, F. A. (2007). Multi-criteria decision analysis via ratio and difference judgement (Vol. 29). Springer Science & Business Media.
MacCrimmon, K.R. (1968). Decision making among multiple-attribute alternatives: A survey and Consolidation approach. RAND Memorandum, RM_4823-ARPA.
Opricovic, S. (1998). Multicriteria optimization of civil engineering systems.Faculty of Civil Engineering, Belgrade, 2(1), 5-21.
Rao, R. V. (2007). Decision making in the manufacturing environment: using graph theory and fuzzy multiple attribute decision making methods. Springer Science & Business Media.
Roy, B. (1989). The outranking approach and the foundations of ELECTRE methods. University of Paris-Dauphine, Document Du Lamsade.
Roy, B. (1991). The outranking approach and the foundations of ELECTRE methods. Theory and decision, 31(1), 49-73.
Roy, B., & Vincke, P. (1981). Multicriteria analysis: survey and new directions. European Journal of Operational Research, 8(3), 207-218.
Saaty, T.L. (1980). The analytic hierarchy process. McGraw Hill, New York.
Saaty, T. L. (2000). Fundamentals of decision making and priority theory with the analytic hierarchy process (Vol. 6). Rws Publications.
Tzeng, G. H., & Huang, J. J. (2011). Multiple attribute decision making: methods and applications. CRC press.
Ullah, R., Zhou, D. Q., Zhou, P., & Baseer, M. (2015). A novel weight allocation and decision making method for space launch vehicle design concept selection. International Journal of Industrial and Systems Engineering, 19(2), 155-168.
Wang, T. Y., Shaw, C. F., & Chen, Y. L. (2000). Machine selection in flexible manufacturing cell: a fuzzy multiple attribute decision-making approach.International Journal of Production Research, 38(9), 2079-2097.
Yoon, K. (1980). Systems selection by Multiple Attribute Decision Making. Ph.D Dissertation, Kansas State University, Manhattan, Kansas.
Yu, P. L. (1973). A class of solutions for group decision problems.Management Science, 19(8), 936-946.
Zardari, N.H., Ahmed, K., Shirazi, S.M., & Yusop, Z.B. (2015). Weighting methods and their effects on multi-criteria decision making model outcomes in water resource management. Springer Briefs in Water Science and Technology, Springer.
Zeleny, M. (1982). Multiple criteria decision making. McGraw-Hill, New York.