International Journal of Neutrosophic Science

Journal DOI

https://doi.org/10.54216/IJNS

Submit Your Paper

2690-6805ISSN (Online) 2692-6148ISSN (Print)

Volume 18 , Issue 4 , PP: 323-333, 2022 | Cite this article as | XML | Html | PDF | Full Length Article

Neutrosophic Near-Subtraction Semigroups and its Application

F. Viscaino Naranjo 1 * , A. R. León Yacelga 2 , B. E. Villalta Jadan 3

  • 1 Docente de la Carrera de Software de la Universidad Regional Autónoma de los Andes (UNIANDES) - (ua.fasutoviscaino@uniandes.edu.ec)
  • 2 Docente de la Carrera de Software de la Universidad Regional Autónoma de los Andes (UNIANDES) - (ui.andresleon@uniandes.edu.ec)
  • 3 Docente de la Carrera de Software de la Universidad Regional Autónoma de los Andes (UNIANDES) - (us.bolivarvillalta@uniandes.edu.ec)
  • Doi: https://doi.org/10.54216/IJNS.180427

    Received: March 28, 2022 Accepted: July 11, 2022
    Abstract

    Potential mechanisms for dealing with water resources are provided by water resource management (WRM). To determine agricultural water resources, a new multi-criteria water resource management approach was created in this work. The management of agricultural water resources has become a major issue in the current circumstances. To create this circumstance, a multi-criteria approach is required. We were able to address a real-world water resource management issue using the suggested multi-criteria decision-making technique. The neutrosophic TOPSIS environment has been taken into account in this decision-making dilemma. Summertime water demand is high, and towards the end of summer, when monsoon season arrives, water demand is low in the agricultural field. During the monsoon season, it is not uncommon for rain to fall just in parts. In agriculture, growing crops during the monsoon season was difficult at the time. As a result, the nature of the water shortage in this area is non-linear and unclear. Because of this, we suggested an MCDM technique for WRM issues in a neutrosophic TOPSIS -environment context.

    Keywords :

    Neutrosophic algebra , TOPSIS , Near-Subtraction , Semigroups ,

    References

    [1] B. Das, S. C. Pal, S. Malik, and R. Chakrabortty, “Modeling groundwater potential zones of Puruliya

    district, West Bengal, India using remote sensing and GIS techniques,” Geology, Ecology, and

    Landscapes, vol. 3, no. 3, pp. 223–237, 2019.

    [2] A. Tecle, Choice of multicriterion decision-making techniques for watershed management. The

    University of Arizona, 1988.

    [3] I. A. STĂNESCU and F. G. FILIP, “ENVIRONMENTAL MULTI-ATTRIBUTE DECISIONMAKING:

    ACCESS TO WATER RESOURCES IN ARID REGIONS OF ROMANIA.”

    [4] Z. A. Mimi and M. D. Smith, “Selection of water resources management options,” 1999.

    [5] B. Yilmaz and N. Harmancioglu, “Multi-criteria decision making for water resource management: a case

    study of the Gediz River Basin, Turkey,” Water SA, vol. 36, no. 5, 2010.

    [6] M. Zarghaami, R. Ardakanian, and A. Memariani, “Fuzzy multiple attribute decision making on water

    resources projects case study: Ranking water transfers to Zayanderud basin in Iran,” Water International,

    vol. 32, no. 2, pp. 280–293, 2007.

    [7] M. J. Bender and S. P. Simonovic, “A fuzzy compromise approach to water resource systems planning

    under uncertainty,” Fuzzy sets and Systems, vol. 115, no. 1, pp. 35–44, 2000.

    [8] S. Hajkowicz and K. Collins, “A review of multiple criteria analysis for water resource planning and

    management,” Water resources management, vol. 21, no. 9, pp. 1553–1566, 2007.

    [9] K. Bauri, P. Gorai, and B. K. Modak, “Indigenous knowledge and practices on water conservation and

    management in purulia district, west bengal,” J. Environ. & Sociobiol, vol. 17, no. 1, pp. 89–98, 2020.

    [10] A. Alamanos, N. Mylopoulos, A. Loukas, and D. Gaitanaros, “An integrated multicriteria analysis tool

    for evaluating water resource management strategies,” Water, vol. 10, no. 12, p. 1795, 2018.

    [11] A. Alamanos, S. Xenarios, N. Mylopoulos, and P. Stalnacke, “Integrated water resources management in

    agro-economy using linear programming: The case of lake Karla basin, Greece,” in 10th World Congress

    of EWRA, 2017, pp. 5–9.

    [12] L. A. Zadeh, “Fuzzy sets,” in Fuzzy sets, fuzzy logic, and fuzzy systems: selected papers by Lotfi A

    Zadeh, World Scientific, 1996, pp. 394–432.

    [13] F. Smarandache, “Neutrosophy: neutrosophic probability, set, and logic: analytic synthesis & synthetic

    analysis,” 1998.

    [14] H. Wang, F. Smarandache, Y. Zhang, and R. Sunderraman, Single valued neutrosophic sets. Infinite

    study, 2010.

    [15] W.-R. Zhang, “Bipolar fuzzy sets and relations: a computational framework for cognitive modeling and

    multiagent decision analysis,” in NAFIPS/IFIS/NASA’94. Proceedings of the First International Joint

    Conference of The North American Fuzzy Information Processing Society Biannual Conference. The

    Industrial Fuzzy Control and Intellige, 1994, pp. 305–309.

    [16] R. Ghanbari, K. Ghorbani-Moghadam, and N. Mahdavi-Amiri, “A direct method to compare bipolar LR

    fuzzy numbers,” Advances in Fuzzy Systems, vol. 2018, 2018.

    [17] M. Sarwar and M. Akram, “Certain algorithms for computing strength of competition in bipolar fuzzy

    graphs,” International journal of uncertainty, fuzziness and knowledge-based systems, vol. 25, no. 06,

    pp. 877–896, 2017.

    [18] M. Sarwar and M. Akram, “Novel concepts of bipolar fuzzy competition graphs,” Journal of Applied

    Mathematics and Computing, vol. 54, no. 1, pp. 511–547, 2017.

    [19] I. Deli, M. Ali, and F. Smarandache, “Bipolar neutrosophic sets and their application based on multicriteria

    decision making problems,” in 2015 International conference on advanced mechatronic systems

    (ICAMechS), 2015, pp. 249–254.

    [20] A. Chakraborty et al., “Disjunctive representation of triangular bipolar neutrosophic numbers, debipolarization

    technique and application in multi-criteria decision-making problems,” Symmetry, vol. 11,

    no. 7, p. 932, 2019.

    [21] V. Mahalakshmi, S. Maharasi, and S. Jayalakshmi, “Bi-ideals of near subtraction semigroup,” Indian

    Advances in Algebra, vol. 6, no. 1, pp. 35–48, 2013.

    [22] J. SIVARANJINI and V. MAHALAKSHMI, “Neutrosophic Fuzzy bi-ideals of Near-Subtraction

    Semigroups.” Spinger Publications., Fater India Publications, Volume6 (i), 2021.

    [23] A. Solairaju and S. Thiruveni, Neutrosophic Fuzzy Ideals of Near-Rings. Infinite Study, 2018.

    [24] R. SUMITHA, P. A. SELVI, and S. JAYALAKSHMI, “Intuitionstic fuzzy Strong bi-ideals in nearsubtraction

    semigroups.” JETIR, 2019.

    Cite This Article As :
    Viscaino, F.. , R., A.. , E., B.. Neutrosophic Near-Subtraction Semigroups and its Application. International Journal of Neutrosophic Science, vol. , no. , 2022, pp. 323-333. DOI: https://doi.org/10.54216/IJNS.180427
    Viscaino, F. R., A. E., B. (2022). Neutrosophic Near-Subtraction Semigroups and its Application. International Journal of Neutrosophic Science, (), 323-333. DOI: https://doi.org/10.54216/IJNS.180427
    Viscaino, F.. R., A.. E., B.. Neutrosophic Near-Subtraction Semigroups and its Application. International Journal of Neutrosophic Science , no. (2022): 323-333. DOI: https://doi.org/10.54216/IJNS.180427
    Viscaino, F. , R., A. , E., B. (2022) . Neutrosophic Near-Subtraction Semigroups and its Application. International Journal of Neutrosophic Science , () , 323-333 . DOI: https://doi.org/10.54216/IJNS.180427
    Viscaino F. , R. A. , E. B. [2022]. Neutrosophic Near-Subtraction Semigroups and its Application. International Journal of Neutrosophic Science. (): 323-333. DOI: https://doi.org/10.54216/IJNS.180427
    Viscaino, F. R., A. E., B. "Neutrosophic Near-Subtraction Semigroups and its Application," International Journal of Neutrosophic Science, vol. , no. , pp. 323-333, 2022. DOI: https://doi.org/10.54216/IJNS.180427