Evaluation and selection of Manufacturer PVC carpentry using FUCOM-MABAC model
DOI:
https://doi.org/10.31181/oresta19012010113nKeywords:
PVC manufacturer, FUCOM, MABAC, weights of criteriaAbstract
Solving real-life problems using multi-criteria decision-making methods has become everyday. These methods represent a very useful tool and support for decision-making in all areas. In this paper is performed evaluation and selection of the manufacturers PVC carpentry using a combined multi-criteria model. Five potential manufacturers were evaluated on the basis of the seven criteria. For determination of the weights of the criteria, FUCOM (FUll COnsistency Method) was used, while the Multi-Attributive Border Approximation Area Comparison (MABAC) method was used to evaluate and select the PVC manufacturer. The results show that the third alternative is the most suitable solution, as demonstrated by the sensitivity analysis. Four other methods were used in the sensitivity analysis: ARAS (Additive Ratio Assessment), WASPAS (Weighted Aggregated Sum Product Assessment), EDAS (Evaluation based on Distance from Average Solution), and SAW (Simple Additive Weighting). The obtained results using all methods show the complete correlation of ranks obtained using the MABAC method.
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References
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Stević, Ž., Vasiljević, M., Zavadskas, E. K., Sremac, S., & Turskis, Z. (2018). Selection of carpenter manufacturer using fuzzy EDAS method. Engineering Economics, 29(3), 281-290. http://dx.doi.org/10.5755/j01.ee.29.3.16818
Stojić, G., Stević, Ž., Antuchevičienė, J., Pamučar, D., & Vasiljević, M. (2018). A Novel Rough WASPAS Approach for Supplier Selection in a Company Manufacturing PVC Carpentry Products. Information, 9(5), 121. https://doi.org/10.3390/info9050121
Zavadskas, E. K., & Turskis, Z. (2010). A new additive ratio assessment (ARAS) method in multicriteria decision‐making. Technological and Economic Development of Economy, 16(2), 159-172.
Zavadskas, E. K., Antucheviciene, J., Turskis, Z., & Adeli, H. (2016). Hybrid multiple-criteria decision-making methods: A review of applications in engineering. Scientia Iranica. Transaction A, Civil Engineering, 23(1), 1. https://doi.org/10.1080/1331677X.2016.1237302
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Zavadskas, E. K., Turskis, Z., Antucheviciene, J., & Zakarevicius, A. (2012). Optimization of weighted aggregated sum product assessment. Elektronika ir elektrotechnika, 122(6), 3-6. http://dx.doi.org/10.5755/j01.eee.122.6.1810
Eshtaiwi, M., Badi, I., Abdulshahed, A., & Erkan, T. E. (2018). Determination of key performance indicators for measuring airport success: A case study in Libya. Journal of Air Transport Management, 68, 28-34.
https://doi.org/10.1016/j.jairtraman.2017.12.004
Karabašević, D., Stanujkić, D., Đorđević, B., & Stanujkić, A. (2018). The weighted sum preferred levels of performances approach to solving problems in human resources management. Serbian Journal of Management, 13(1), 145-156. doi: 10.5937/sjm13-12589
Keshavarz Ghorabaee, M., Zavadskas, E. K., Olfat, L., & Turskis, Z. (2015). Multi-criteria inventory classification using a new method of evaluation based on distance from average solution (EDAS). Informatica, 26(3), 435-451.
Kumar, D. N. (2010). Multicriterion analysis in engineering and management. PHI Learning Pvt. Ltd.
MacCrimmon, K. R. (1968). Decision making among multiple-attribute alternatives: a survey and consolidated approach (No. RM-4823-ARPA). rand corp santa monica ca.
Pamučar D, Stević Ž, Sremac S. (2018). A New Model for Determining Weight Coefficients of Criteria in MCDM Models: Full Consistency Method (FUCOM). Symmetry. 10(9):393. https://doi.org/10.3390/sym10090393
Pamučar, D., & Ćirović, G. (2015). The selection of transport and handling resources in logistics centers using Multi-Attributive Border Approximation area Comparison (MABAC). Expert Systems with Applications, 42(6), 3016-3028. https://doi.org/10.1016/j.eswa.2014.11.057
Petrović, G. S., Madić, M. J., Marković, D. S., Milić, P. D., & Stefanović, G. M. (2016). Multiple criteria decision making of alternative fuels for waste collection vehicles in southeast region of Serbia. Thermal Science, 20.
Shetwan, A. G., Badi, I. A., & Aljamel, S. A. (2017). Using analytical hierarchy process to select the best power generation technology in Libya. International Journal of Information Technology and Web Engineering, 3(2), 159-165.
Stević, Ž., Pamučar, D., Kazimieras Zavadskas, E., Ćirović, G., & Prentkovskis, O. (2017). The selection of wagons for the internal transport of a logistics company: A novel approach based on rough BWM and rough SAW methods. Symmetry, 9(11), 264. https://doi.org/10.3390/sym9110264
Stević, Ž., Vasiljević, M., Zavadskas, E. K., Sremac, S., & Turskis, Z. (2018). Selection of carpenter manufacturer using fuzzy EDAS method. Engineering Economics, 29(3), 281-290. http://dx.doi.org/10.5755/j01.ee.29.3.16818
Stojić, G., Stević, Ž., Antuchevičienė, J., Pamučar, D., & Vasiljević, M. (2018). A Novel Rough WASPAS Approach for Supplier Selection in a Company Manufacturing PVC Carpentry Products. Information, 9(5), 121. https://doi.org/10.3390/info9050121
Zavadskas, E. K., & Turskis, Z. (2010). A new additive ratio assessment (ARAS) method in multicriteria decision‐making. Technological and Economic Development of Economy, 16(2), 159-172.
Zavadskas, E. K., Antucheviciene, J., Turskis, Z., & Adeli, H. (2016). Hybrid multiple-criteria decision-making methods: A review of applications in engineering. Scientia Iranica. Transaction A, Civil Engineering, 23(1), 1. https://doi.org/10.1080/1331677X.2016.1237302
Zavadskas, E. K., Stević, Ž., Tanackov, I., & Prentkovskis, O. (2018). A Novel Multicriteria Approach–Rough Step-Wise Weight Assessment Ratio Analysis Method (R-SWARA) and Its Application in Logistics. Studies in Informatics and Control, 27(1), 97-106. https://doi.org/10.24846/v27i1y201810
Zavadskas, E. K., Turskis, Z., Antucheviciene, J., & Zakarevicius, A. (2012). Optimization of weighted aggregated sum product assessment. Elektronika ir elektrotechnika, 122(6), 3-6. http://dx.doi.org/10.5755/j01.eee.122.6.1810
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Published
2018-12-19
How to Cite
Nunić, Z. (2018). Evaluation and selection of Manufacturer PVC carpentry using FUCOM-MABAC model. Operational Research in Engineering Sciences: Theory and Applications, 1(1), 13–28. https://doi.org/10.31181/oresta19012010113n
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