Comparison Analysis of some MCDM Modelsand Applying in Decision Information System

Received: 20-07-2020

Accepted: 30-11-2020

DOI:

Views

0

Downloads

0

Section:

KỸ THUẬT VÀ CÔNG NGHỆ

How to Cite:

Lan, N., Chau, N., & Thao, N. (2024). Comparison Analysis of some MCDM Modelsand Applying in Decision Information System. Vietnam Journal of Agricultural Sciences, 19(4), 462–472. http://testtapchi.vnua.edu.vn/index.php/vjasvn/article/view/812

Comparison Analysis of some MCDM Modelsand Applying in Decision Information System

Nguyen Thi Lan (*) 1 , Ngoc Minh Chau 1 , Nguyen Xuan Thao 1

  • 1 Khoa Công nghệ thông tin, Học viện Nông nghiệp Việt Nam
  • Keywords

    SAW, MOORA, Entropy, MCD

    Abstract


    Practically, a decision-maker (DM) often faces the problem of choosing the best optimal from the alternatives based on given criteria, which is called the multiple criteria decision-making problem (MCDM). Many models have been studied and used to solve MCDM problems. However, it is wrong to declare that there is a certain method that is the best one. The main objective of this studywas to analyze and evaluate some methods of solving multi-criteria decision-making problems such as the SAW (Simple Additive Weighting), and MOORA (multi-objective optimization based on ratio analysis) method, and apply them to solve some problems in agriculture. To do that, we analyzed the SAW and MOORA methods and proposed improvement directions in the data normalization step and used fuzzy entropy to calculate weights for the model's criteria. After that, the improved models used to solve some problems in agriculture, such as the problem of choosing a mushroom cultivation formula, the problem of choosing a fertilizer for cashew trees. The results obtained after improvement were considered to be better.

    References

    Bhowmik C., Gangwar S., Bhowmik S. & Ray A. (2018). Selection of Energy-Efficient Material: An Entropy-TOPSIS Approach. In Soft Computing: Theories and Applications. 584: 31-39.

    Brauers W.K.M. (2004). Optimization methods for a stakeholder society. A revolution in economic thinking by multi-objective optimization. Boston: Kluwer Academic Publishers.

    Chakraborty S. & Chatterjee P. (2013). Selection of materials using multi-criteria decision-making methods with minimum data. Decision Science Letters. 2(3): 135-148.

    Gadakh V.S., Shinde V.B., Khemnar N.S. & Kumar A.(2016). Application of MOORA Method for Friction Stir Welding Tool Material Selection. In Techno-Societal 2016, International Conference on Advanced Technologies for Societal Applications. pp. 845-854.

    Ginevicius R. & Podvezko V. (2007). Some problems of evaluating multicriteria decision methods. International Journal of Management and Decision Making.8(5/6):527-539.

    HieuT.T. & ThaoN.X. (2019). Fuzzy entropy based MOORA model for selecting material for mushroom in Viet Nam. I.J. Information Engineering and Electronic Business.5:1-10.

    Hwang C.L.& Yoon K. (1981). Multiple Attribute Decision Making-Methods and Applications, A State of the Art Survey.Springer Verlag, Berlin, Heidelberg, New York.

    Indahingwati A., Barid M., Wajdi N., Susilo D.E., Kurniasih N. & Rahim R. (2018). Comparison Analysis of TOPSIS and Fuzzy Logic Methods On Fertilizer Selection. Int. J. Eng. Technol. 7(2-3):109-114.

    Jayakrishna K. & Vinodh S.(2017). Application of grey relational analysis for material and end of life strategy selection with multiple criteria. International Journal of Materials Engineering Innovation. 8(3-4): 250-272.

    Karande P. & Chakraborty S. (2012). Application of multi-objective optimization on the basis of ratio analysis (MOORA) method for materials selection. Materials and Design. 37:317-324.

    Mayyas A., Omar M.A. & Hayajneh M.T.(2016). Eco-material selection using fuzzy TOPSIS method. International Journal of Sustainable Engineering. 9(5): 292-304.

    Nguyen T.B.T., Ngo X.N., Nguyen T.T., Tran D.A., Nguyen X.C., Nguyen V.G. & Tran T.D. (2016) Evaluating the Growth and Yield of King Oyster Mushroom (Pleurotus eryngii(DC.:Fr.) Quél) on Different Substrates. Vietnam J.Agri.Sci. 14(5): 816-823.

    Podvezko V. (2011). Comparative analysis of MCDA methods SAW and COPRAS. Inþinerinë ekonomika. pp.134-146.

    Singh S.& Sharma S. (2019). On Generalized Fuzzy Entropy and Fuzzy Divergence Measure with Applications. International Journal of Fuzzy System Applications (IJFSA). 8(3):47-69.

    Trần Trung Hiếu, Nguyễn Xuân Thảo, Phan Trọng Tiến &Lê Thị Minh Thùy (2019). Áp dụng mô hình MOORA vàCOPRAS để lựa chọn nguyên liệu trồng nấm. Tạp chí Khoa học Nông nghiệp Việt Nam. 17(4):322-331.

    Zavadskas E.K., Kaklauskas A.& Sarka V. (1994). The new method of multicriteria complex proportional assessment of projects. Technological and economic development of economy. 1(3): 131-139.