Volume 18 , Issue 4 , PP: 160-173, 2022 | Cite this article as | XML | Html | PDF | Full Length Article
S.Sudha 1 * , Nivetha Martin 2 , Said Broumi 3
Doi: https://doi.org/10.54216/IJNS.180415
The objective of any decision-making method in a plithogenic environment is to make an optimal ranking of the alternatives subjected to core essential criteria. The preference for plithogenic decision-making methods is gaining momentum in recent times as plithogenic representations are more comprehensive and efficient in handling uncertain and imprecise decision-making data. In this paper, a plithogenic CRITIC-MAIRCA decision-making model is developed and applied to decision-making on livestock feeding stuff. A total of 20 alternatives under three major feed categories of green fodder, subsidiary fodder and concentrate feed are ranked using MAIRCA (The Multi Attributive Ideal-Real Comparative Analysis) method and the criterion weights are determined using the method of CRITIC (CRiteria Importance Through Inter-criteria Correlation). The final results of the plithogenic ranking are compared with fuzzy and crisp ranking methods and it is observed that the plithogenic CRITIC-MAIRCA method is highly efficient in making a feasible ranking.
CRITIC-MAIRCA , plithogenic decision making , livestock , feeding stuff
[1] Zadeh L. A., “Fuzzy sets”, Information and Control 8,338-353,1965.
[2] Atanassov K.T., “Intuitionistic fuzzy sets”., Fuzzy Sets and Systems 20 , 87-96,1986.
[3] Smarandache, F., “Neutrosophic set, A Generalization of the Intuitionistic Fuzzy Set”, International
Journal of Pure and Applied Mathematics, Vol. 24, No. 3, 287-297,2005.
[4] Smarandache, F., “Plithogeny, Plithogenic Set, Logic, Probability and Statistics”, preprint
arXiv:1808.03948,2018.
[5] Shazia Rana , Muhammad Saeed , Midha Qayyum, Florentin Smarandache.," Plithogenic Subjective
Hyper-Super-Soft Matrices with New Definitions & Local, Global, Universal Subjective Ranking
Model”., International Journal of Neutrosophic Science (IJNS)., Vol. 6, No. 2, PP. 56-79, 2020.
[6] Florentin Smarandache ., Nivetha Martin., “Plithogenic n- Super Hypergraph in Novel Multi -
Attribute Decision Making”., International Journal of Neutrosophic Science (IJNS) Vol. 7, No. 1, PP.
08-30, 2020
[7] Nivetha Martin and Florentin Smarandach., “Plithogenic Cognitive Maps in Decision Making”.,
International Journal of Neutrosophic Science (IJNS) Vol. 9, No. 1, PP. 09-21, 2020
[8] C. Sankar, R. Sujatha, D. Nagarajan., “TOPSIS BY USING PLITHOGENIC SET IN COVID-19
Decision Making”., International Journal of Neutrosophic Science (IJNS) Vol. 10, No. 2, PP. 116-
125, 2020
[9] R.Sujatha., S.Poomagal., G.Kuppuswami.,Said Broumi., “An Analysis on Novel Corona Virus by a
Plithogenic Approach to Fuzzy Cognitive Map” . International Journal of Neutrosophic Science
(IJNS) Vol. 11, No.2, PP. 62-75, 2020.
[10] S.P. Priyadharshini., F. Nirmala Irudayam., F. Smarandache., “Plithogenic Cubic Sets”., International
Journal of Neutrosophic Science (IJNS) Vol. 11, No. 1, PP. 30-38, 2020.
[11] Nivetha Martin, Florentin Smarandache and Said Broumi., “PROMTHEE Plithogenic Pythagorean
Hypergraphic Approach in Smart Materials Selection”., International Journal of Neutrosophic
Science (IJNS) Vol. 13, No. 1, PP. 52-60, 2021
[12] Nivetha Martin, Florentin Smarandache and Said Broumi., “COVID-19 Decision-Making Model
using Extended Plithogenic Hypersoft Sets with Dual Dominant Attributes”., International Journal of
Neutrosophic Science (IJNS) Vol. 13, No. 2, PP. 75-86, 2021.
[13] Prem Kumar Singh.," Single-valued Plithogenic graph for handling multi-valued attribute data and its
context”., International Journal of Neutrosophic Science (IJNS) Vol. 15, No. 2, PP. 98-112, 2021
[14] Prem Kumar Singh., “Air Quality Index Analysis Using Single-Valued Neutrosophic Plithogenic
Graph for Multi-Decision Process”., International Journal of Neutrosophic Science (IJNS) Vol. 16,
No. 1, PP. 28-41, 2021.
[15] Prem Kumar Singh.," Dark data analysis using Intuitionistic Plithogenic graphs”., International
Journal of Neutrosophic Science (IJNS) Vol. 16, No. 2, PP. 80-100, 2021.
[16] Diakoulaki, Danae, George Mavrotas, and Lefteris Papayannakis., “Determining objective weights in
multiple criteria problems: The CRITIC method”. Computers & Operations Research 22.7: 763-
770,1995.
[17] Kazan H. & Ozdemir O." Financial performance assessment of large-scale conglomerates via
TOPSIS and CRITIC methods”. International Journal of Management and Sustainability, 3(4), 203-
224,2014.
[18] Madic, M. & Radovanovic, M., “Ranking of some most commonly used non-traditional machining
processes using ROV and CRITIC methods”. U.P.B. Sci. Bull., Series D, 77(2), 193-204,2015.
[19] Adalı, E. A., “CRITIC and MAUT methods for the contract manufacturer selection
problem”. European Journal of Multidisciplinary Studies, 2(5), 93-101,2017.
[20] Kahraman C., Onar S. C., & Oztayşi B., “A Novel spherical fuzzy CRITIC method and its
application to prioritization of supplier selection criteria”. Journal of Intelligent & Fuzzy Systems,
(Preprint), 1-8,2022.
[21] Xindong Peng., Xiang Zhang., Zhigang Luo., “Pythagorean fuzzy MCDM method based on CoCoSo
and CRITIC with score function for 5G industry evaluation”., Artificial Intelligence Review
(Springer)., Nov 2019
[22] Mishra A. R., Rani P., & Pandey K., “Fermatean fuzzy CRITIC-EDAS approach for the selection of
sustainable third-party reverse logistics providers using improved generalized score
function”. Journal of ambient intelligence and humanized computing, 13(1), 295-311,2022.
[23] Wan B., & Zhou S., “An integrating CRITIC-WASPAS group decision making method under
interval-valued q-rung orthogonal fuzzy environment”. arXiv preprint arXiv:2201.01027,2022
[24] Rostamzadeh R., Ghorabaee M. K., Govindan K., Esmaeili A., & Nobar H. B. K., “Evaluation of
sustainable supply chain risk management using an integrated fuzzy TOPSIS-CRITIC
approach”. Journal of Cleaner Production, 175, 651-669,2018.
[25] ShihuiLi., Bo Wang., “Research on Evaluating Algorithms for the Service Quality of Wireless
Sensor Networks Based on Interval-Valued Intuitionistic Fuzzy EDAS and CRITIC Methods”.,
Mathematical Problems in Engineering Volume 2020.
[26] Pratibha Rani., Arunodaya Raj Mishra., R. Krishnakumar., K.S. Ravichandran., Samarjit Kar.,
“Multi-criteria food waste treatment method selection using single valued neutrosophic -CRITICMULTIMOORA
framework”., Applied Soft Computing., Vol 111,107657,2021
[27] Abdel-Basset M, & Mohamed R, “A novel Plithogenic TOPSIS-CRITIC model for sustainable
supply chain risk management”. Journal of Cleaner Production, 247, 119586,2020.
[28] Dragan Pamucar , Muhammet Deveci , Dorin Schitea, Levent Eris‚kin , Mihaela Iordache , Ioan
Iordache., “Developing a novel fuzzy neutrosophic numbers based decision making analysis for
prioritizing the energy storage technologies”, International journal of hydrogen energy.,vl-45.,2020.
[29] Ayçin, E. ve Orçun, Ç.,” Evaluation of Performance of Deposit Banks by Entropy and MAIRCA
Methods”, Balıkesir Üniversity,the journal of Social Sciences institute, 22(42), 175-194,2019.
[30] Badi, I. ve Ballem, M. “Supplier selection using the rough BWM-MAIRCA model: a case study in
pharmaceutical supplying in Libya. Decision Making”: Applications In Management and
Engineering, 1(2), 16-33,2018.
[31] Chatterjee, K., Pamucar, D., Zavadskas, E.K., “Evaluating the performance of suppliers based on
using the R’AMATEL-MAIRCA method for green supply chain implementation in electronics
industry”. J. Clean. Prod. 184, 101–129,2018.
[32] Dragan S Pamucar, Vesko Lukovac, Darko Bozanic, Nenad Komazec., “Multi-Criteria FUCOMMAIRCA
Model for the evaluation of Level Crossings: case study in the republic of Serbia”.,
Operational Research in Engineering Sciences: Theory and Applications Vol. 1, Issue 1, pp. 108-
129,2018.
[33] Gigović L., Pamučar D., Bajić Z., & Milićević M., “The combination of expert judgment and GISMAIRCA
analysis for the selection of sites for ammunition depots”. Sustainability, 8(4), 372,2016.
[34] Pamucar D. S., Tarle S. P., & Parezanovic T., “New hybrid multicriteria decision-making
DEMATEL-MAIRCA model: sustainable selection of a location for the development of multimodal
logistics centre”. Economic Research-Ekonomska Istrazivanja, 31(1), 1641-1665,2018.
[35] Pamučar D., Mihajlovic M., Obradovic R. & Atanaskovic P., “Novel approach to group multicriteria
decision making based on interval rough numbers: Hybrid DEMATEL-ANP-MAIRCA
model”. Expert Systems with Applications, 88, 58-80,2017.
[36] Ulutaş A., “The Selection of Catering firm with SWARA and MAIRCA methods”., Bus. & Manag.
Stud.: Int. J. 7(4), 1467–1479.,2019.
[37] Boral, S., Howard, I., Chaturvedi, S. K., McKee, K., &Naikan, V. N. A., “An integrated approach for
fuzzy failure modes and effects analysis using fuzzy AHP and fuzzy MAIRCA”. Engineering
Failure Analysis, 108, 104195,2020
[38] Zhu G. N., Ma J., & Hu J., “Evaluating biological inspiration for biologically inspired design: An
integrated DEMATEL‐MAIRCA based on fuzzy rough numbers”. International Journal of Intelligent
Systems, 36(10), 6032-6065,2021.
[39] Muhammet Gul & M. Fatih Ak., “Assessment of occupational risks from human health and
environmental perspectives: a new integrated approach and its application using fuzzy BWM and
fuzzy MAIRCA”., Stochastic Environmental Research and Risk Assessment.,34,1231-1262 ,2020.
[40] Fatih Ecer., “An extended MAIRCA method using intuitionistic fuzzy sets for coronavirus vaccine
selection in the age of COVID-19”, Neural Computing and Applications, 34:5603–5623.,2022.
[41] Abdullah Ozcil., Aysegul Tus., Gulin Zeynep Oztas., Esra Aytac Adali & Tayfun Oztas., “The Novel
Integrated Model of Plithogenic Sets and MAIRCA Method for MCDM problems”. International
Conference on Intelligent and fuzzy systems.pp 733-741,2020.
[42] Guler, E. S., & Can, G. F., “Material selection for microstrip antenna using CRITIC-MIACRA
integration as a practical approach”. Eskisehir Technical University Journal of Science and
Technology A-Applied Sciences and Engineering, 21(1), 1-20.,2020
[43] Smarandache, F., “Plithogeny, Plithogenic Set, Logic, Probability and Statistics”, preprint
arXiv:1808.03948,2018.
[44] Solairaju.A and M. Shajahan , “Transforming Neutrosophic Fuzzy Set into Fuzzy Set by Imprecision
Method”, Journal of Computer and Mathematical Sciences, Vol.9(10),1392-1399 October 2018.
