Volume 25 , Issue 1 , PP: 211-218, 2025 | Cite this article as | XML | Html | PDF | Full Length Article
Roberth L. Tacuri Toribio 1 * , Miriam E. Campos Llana 2 , Alfredo Paucar Curasma 3 , Yenny Talavera Ore 4 , Walter A. Quispe Cutipa 5 , Alan Christian L. Castillo 6 , Llesica Soria Ramirez 7 , Giuliana S. Cabello Flores 8
Doi: https://doi.org/10.54216/IJNS.250119
This research is carried out at the Educational Institution No. 35005 Reverend Father Bardo Bayerle of the Province of Oxapampa, Peru. We demonstrate that when there is a strong cultural identity, this means that the intercultural attitude of students is also strengthened. Cultural identity is a value that is currently being lost. This is a negative phenomenon, since with the reaffirmation of what one is culturally then one can consolidate the relationship with other groups. In this paper this phenomenon is studied from a statistical perspective on a survey carried out on students of this institution, some of them belonging to the target group and others belonging to the control group. To obtain more reliable results we apply Plithogenic Statistics, which is a generalization of Multivariate Statistics, where more than one random variable is studied simultaneously. Specifically, plithogenic statistics incorporates new components within the statistical study such as falsity or indeterminacy.
Cultural Identity , Intercultural Attitude , Plithogenic Probability , Plithogenic Statistics , Multivariate Statistics , Plithogeny , Neutrosophic Number.
[1] Smarandache, F. (2021). Plithogenic Probability & Statistics are generalizations of MultiVariate Probability & Statistics. Neutrosophic Sets and Systems, 43, 280-289.
[2] Smarandache, F. (2022). Neutrosophic Statistics is an extension of Interval Statistics, while Plithogenic Statistics is the most general form of statistics (second version). International Journal of Neutrosophic Science (IJNS), 19, 148-165.
[3] Smarandache, F. (2022). Neutrosophic statistics is an extension of interval statistics, while plithogenic statistics is the most general form of statistics (third version). Bulletin of Pure & Applied Sciences-Mathematics and Statistics, 41, 172-183.
[4] Smarandache, F. (2022). Plithogeny, plithogenic set, logic, probability and statistics: a short review. Journal of Computational and Cognitive Engineering, 1, 47-50.
[5] Sariga, A. Uthayakumar, J. (2020). Type 2 Fuzzy Logic based Unequal Clustering algorithm for multi-hop wireless sensor networks. Journal of International Journal of Wireless and Ad Hoc Communication, 1( 1), 33-46. DOI: https://doi.org/10.54216/IJWAC.010102.
[6] Singh, P. K. (2021). Plithogenic set for multi-variable data analysis. International Journal of Neutrosophic Science, 1(2), 81-89.
[7] Singh, P. K. (2021). Dark data analysis using Intuitionistic Plithogenic graphs. International Journal of Neutrosophic Sciences, 16(2), 80-100.
[8] Rezaei, A. Oner, T. Katican, T. Smarandache, F. Gandotra, N. (2022). A short history of fuzzy, intuitionistic fuzzy, neutrosophic and plithogenic sets. International Journal of Neutrosophic Science, 18( 1), 99-116.
[9] Martin, N., Smarandache, F., and Broumi, S. (2021). Covid-19 decision-making model using extended plithogenic hypersoft sets with dual dominant attributes. International journal of neutrosophic science, 13(2), 75-86.
[10] Smarandache, F. (2023). An overview of Plithogenic set and symbolic Plithogenic algebraic structures. Journal of fuzzy extension and applications, 4, 48-55.
[11] Smarandache, F. (2023). Introduction and advances to neutrosophic probability and statistics and plithogenic probability and statistics and their applications in bioinformatics and other fields (review chapter). In Cognitive Intelligence with Neutrosophic Statistics in Bioinformatics (pp. 1-23). Academic Press.
[12] M., M. (2022). Interval Valued Neutrosophic Sets and Multi-Criteria Decision Making for Sustainable Mobile Healthcare Promotion. Journal of Financial Technology and Innovation, 1( 1), 08-15. DOI: https://doi.org/10.54216/FinTech-I.010101
[13] Rezaei, A. Oner, T. Katican, T. Smarandache, F. Gandotra, N. (2022). A short history of fuzzy, intuitionistic fuzzy, neutrosophic and plithogenic sets. Journal of International Journal of Neutrosophic Science, 18( 1), 99-116.
[14] Batista-Hernández, N., Leyva-Vázquez, M. Y., González-Caballero, E., Valencia-Cruzaty, L. E., Ortega-Chávez, W., and Smarandache, F. (2021). A new method to assess entrepreneurship competence in university students using based on plithogenic numbers and SWOT analysis. International Journal of Fuzzy Logic and Intelligent Systems, 21, 280-292.
[15] Smarandache, F. (1998) Neutrosophy: Neutrosophic probability, set, and logic: Analytic synthesis & synthetic analysis, Technical Report.
[16] Jin, L., Zhang, C., Wen, X., and Christopher, G.G. (2020) A Neutrosophic Number-Based Memetic Algorithm for the Integrated Process Planning and Scheduling Problem With Uncertain Processing Time, IEEE Access, 8, 96628-96648.
[17] Moore, R.E. (1966) Interval Analysis, Prentice Hall, Englewood Cliffs.
[18] S., A. Emad, M. Ismail, M. Rashad, H. M., A. Abdelhafeez, A. S., S. (2023). An Intelligent Multi-Criteria Decision-Making Model for selecting an optimal location for a data center: Case Study in Egypt. Journal of Intelligent Systems and Internet of Things, 9( 2), 23-35.
[19] B., J. Mauricio, K. Marks, A. (2024). Fusion of Forensic Analysis of Mobile Devices: Integrating Multi-Criteria Decision Methods and Case Study Insights. Fusion: Practice and Applications, 16( 2), 32-42.
