A Handbook on Multi-Attribute Decision-Making Methods. Omid Bozorg-Haddad

      1 Andrews, S.S. and Carroll, C.R. (2001). Designing a soil quality assessment tool for sustainable agroecosystem management. Ecological Applications 11 (6): 1573–1585.

      2 Athawale, V.M. and Chakraborty, S. (2011). A comparative study on the ranking performance of some multi‐criteria decision‐making methods for industrial robot selection. International Journal of Industrial Engineering Computations 2 (4): 831–850.

      3 Chang, Y.H. and Yeh, C.H. (2001). Evaluating airline competitiveness using multiattribute decision making. Omega 29 (5): 405–415.

      4 Cheng, S., Chan, C.W., and Huang, G.H. (2003). An integrated multi‐criteria decision analysis and inexact mixed integer linear programming approach for solid waste management. Engineering Applications of Artificial Intelligence 16 (5‐6): 543–554.

      5 Chou, S.Y., Chang, Y.H., and Shen, C.Y. (2008). A fuzzy simple additive weighting system under group decision‐making for facility location selection with objective/subjective attributes. European Journal of Operational Research 189 (1): 132–145.

      6 Churchman, C.W. and Ackoff, R.L. (1954). An approximate measure of value. Journal of the Operations Research Society of America 2 (2): 172–187.

      7 Ebert, U. and Welsch, H. (2004). Meaningful environmental indices: A social choice approach. Journal of Environmental Economics and Management 47 (2): 270–283.

      8 Goicoechea, A., Stakhiv, E.Z., and Li, F. (1992). Experimental evaluation of multiple criteria decision models for application to water resources planning. Journal of the American Water Resources Association 28 (1): 89–102.

      9 Hobbs, B.F., Chankong, V., Hamadeh, W., and Stakhiv, E.Z. (1992). Does choice of multicriteria method matter? An experiment in water resources planning. Water Resources Research 28 (7): 1767–1779.

      10 Howard, A.F. (1991). A critical look at multiple criteria decision making techniques with reference to forestry applications. Canadian Journal of Forest Research 21 (11): 1649–1659.

      11 Jato‐Espino, D., Castillo‐Lopez, E., Rodriguez‐Hernandez, J., and Canteras‐Jordana, J.C. (2014). A review of application of multi‐criteria decision making methods in construction. Automation in Construction 45: 151–162.

      12 Kang, S.M. (2002). A sensitivity analysis of the Korean composite environmental index. Ecological Economics 43 (2): 159–174.

      13 Ma, J., Fan, Z.P., and Huang, L.H. (1999). A subjective and objective integrated approach to determine attribute weights. European Journal of Operational Research 112 (2): 397–404.

      14 Olson, D.L., Moshkovich, H.M., Schellenberger, R., and Mechitov, A.I. (1995). Consistency and accuracy in decision aids: experiments with four multiattribute systems. Decision Sciences 26 (6): 723–747.

      15 Pohekar, S.D. and Ramachandran, M. (2004). Application of multi‐criteria decision making to sustainable energy planning: a review. Renewable and Sustainable Energy Reviews 8 (4): 365–381.

      16 Saaty, T.L. and Ergu, D. (2015). When is a decision‐making method trustworthy? Criteria for evaluating multi‐criteria decision‐making methods. International Journal of Information Technology and Decision Making 14 (06): 1171–1187.

      17 San Cristóbal, J.R. (2011). Multi‐criteria decision‐making in the selection of a renewable energy project in Spain: the VIKOR method. Renewable Energy 36 (2): 498–502.

      18 San Cristóbal, J.R. (2012). Weighted sum method and weighted product method. In: Multi Criteria Analysis in the Renewable Energy Industry (ed. J.R. San Cristobal), 19–22. London, UK: Springer.

      19 Savitha, K. and Chandrasekar, C. (2011). Vertical Handover decision schemes using SAW and WPM for network selection in heterogeneous wireless networks. Global Journal of Computer Science and Technology 11 (9): 19–24.

      20 Şener, B., Süzen, M.L., and Doyuran, V. (2006). Landfill site selection by using geographic information systems. Environmental Geology 49 (3): 376–388.

      21 Triantaphyllou, E. and Mann, S.H. (1989). An examination of the effectiveness of multi‐dimensional decision‐making methods: a decision‐making paradox. Decision Support Systems 5 (3): 303–312.

      22 Tzeng, G.H. and Huang, J.J. (2011). Multiple Attribute Decision Making: Methods and Applications. Boca Raton, FL: CRC Press.

      23 Wang, M., Liu, S., Wang, S., and Lai, K.K. (2010). A weighted product method for bidding strategies in multi‐attribute auctions. Journal of Systems Science and Complexity 23 (1): 194–208.

      24 Yu, P.L. (1990). Forming Winning Strategies: An Integrated Theory of Habitual Domains. Heidelberg, Germany: Springer Science and Business Media Publication.

      25 Zanakis, S.H., Mandakovic, T., Gupta, S.K. et al. (1995). A review of program evaluation and fund allocation methods within the service and government sectors. Socio‐Economic Planning Sciences 29 (1): 59–79.

      26 Zanakis, S.H., Solomon, A., Wishart, N., and Dublish, S. (1998). Multi‐attribute decision making: a simulation comparison of select methods. European Journal of Operational Research 107 (3): 507–529.

      27 Zarghami, M. (2011). Effective watershed management; case study of Urmia Lake, Iran. Lake and Reservoir Management 27 (1): 87–94.

      28 Zhou, P., Ang, B.W., and Poh, K.L. (2006). Comparing aggregating methods for constructing the composite environmental index: an objective measure. Ecological Economics 59 (3): 305–311.