Some Continuous Neutrosophic Distributions with Neutrosophic Parameters Based on Neutrosophic Random Variables
Year 2022,
, 380 - 389, 30.09.2022
Carlos Granados
,
Ajoy Kanti Das
,
Birojit Das
Abstract
In this paper, we apply continuous random distributions such as the exponential distribution, gamma distribution, beta distribution and uniform distribution and discontinuous random distribution such as Poisson distribution by using neutrosophic random variables. This study opens a new way for dealing with issues that follow the classical distributions which appear in classical random variables and at the same time contain data not specified accurately.
References
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Number and its Application in Mobile Communication Service Based MCGDM Problem, Neutrosophic Sets and Systems,
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Network, Neutrosophic Sets and Systems, 16(2017), 28-34.
- [12] L. Esther Valencia Cruzaty, M. Reyes Tomalá and C. Manuel Castillo Gallo, A Neutrosophic Statistic Method to Predict
Tax Time Series in Ecuador, Neutrosophic Sets and Systems, 34(2020), 33-39
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- [14] C. Granados and J. Sanabria, On independence neutrosophic random variables, Neutrosophic Sets and Systems, 47(2021),
541-557.
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Sets and Systems, 42(2021), 333?-.
- [16] C. Granados, A. Dhital, New results on Pythagorean neutrosophic open sets in Pythagorean neutrosophic topological
spaces, Neutrosophic Sets and Systems 43(2021), 12-23.
- [17] C. Granados, Una nueva noció de conjuntos neutrosóficos a través de los conjuntos∗ b-abiertos en espacios topológicos
- neutrosó?cos, Eco Matemático 12(2)(2021), 1-12.
[18] C. Granados, Un nuevo estudio de los conjuntos supra neutrosophic crisp, Revista Facultad de Ciencias Básicas 16(2)(2020),
65-75.
[19] K. Hamza Alhasan and F. Smarandache, Neutrosophic Weibull distribution and Neutrosophic Family Weibull Distribution,
Neutrosophic Sets and Systems, 28(2019), 191-199.
- [20] H. Kamaci, Neutrosophic Cubic Hamacher Aggregation Operators and Their Applications in Decision Making, Neutro-
sophic Sets and Systems, 33(2020), 234-255.
- [21] W. B. V. Kandasamy and F. Smarandache, Neutrosophic Rings, Hexis, Phoenix, Arizona: Infinite Study, 2006.
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Networks based e-Learning Systems & Neutrosophic System, Neutrosophic Sets and Systems, 8(2015), 32-41.
- [23] N. A. Nabeeh, M. Abdel-Basset and G. Soliman, A model for evaluating green credit rating and its impact on sustainability
performance, Journal of Cleaner Production, 280(1)(2021), 124-299.
- [24] N. A. Nabeeh, F. Smarandache, M. Abdel-Basset, H. A. El-Ghareeb and . A. Aboelfetouh, An Integrated Neutrosophic-
TOPSIS Approach and its Application to Personnel Selection: A New Trend in Brain Processing and Analysis, IEEE
Access, 29734-29744, 2017.
- [25] N. A. Nabeeh, M. Abdel-Basset, H. A. El-Ghareeb and A. Aboelfetouh , Neutrosophic Multi-Criteria Decision Making
Approach for IoT-Based Enterprises, IEEE Access, 2019.
- [26] N. Olgun and A. Hatip, The E?ect Of The Neutrosophic Logic On The Decision Making, in Quadruple Neutrosophic
Theory And Applications, Belgium, EU, Pons Editions Brussels, 2020, 238-253.
- [27] S. K. Patro and F. Smarandache, The neutrosophic statistical distribution, more problems, more solutions, Neutrosophic
Sets and Systems, 12(2016), 73-79.
- [28] R. Sahin, Neutrosophic Hierarchical Clustering Algoritms, Neutrosophic Sets and Systems, 2(2014), 19-24.
- [29] M. Sahin, N. Olgun, V. Uluçay, A. Karg?n and F. Smarandache, A New Similarity Measure Based on Falsity Value between
Single Valued Neutrosophic Sets Based on the Centroid Points of Transformed Single Valued Neutrosophic Numbers with
Applications to Pattern Recognition, Neutrosophic Sets and Systems, 15(2017), 31-48.
- [30] A. Salama, A. Sharaf Al-Din, I. Abu Al-Qasim, R. Alhabib and M. Badran, Introduction to Decision Making for Neutro-
sophic Environment Study on the Suez Canal Port, Neutrosophic Sets and Systems, 35(2020), 22-44.
- [31] Salama.A.A, Smarandache. F, Neutrosophic Crisp Set Theory. Education Publishing, Columbus, 2015.
- [32] Salama. A.A, Smarandache. F, and Kroumov. V, Neutrosophic Crisp Sets & Neutrosophic Crisp Topological Spaces.
Neutrosophic Sets and Systems, Vol. 2, pp.25-30, 2014.
- [33] G. Shahzadi, M. Akram and A. B. Saeid, An Application of Single-Valued Neutrosophic Sets in Medical Diagnosis, Neu-
trosophic Sets and Systems, 18(2017), 80-88.
- [34] F. Smarandache, Neutrosophic Set a Generalization of the Intuitionistic Fuzzy Sets, Inter. J. Pure Appl. Math., 2005,
287-297.
- [35] F. Smarandache, Introduction to Neutrosophic Statistics, USA: Sitech & Education Publishing, 2014.
- [36] F. Smarandache, Introduction to Neutrosophic Measure, Neutrosophic Integral and Neutrosophic Probability, Craiova,
Romania: Sitech - Education, 2013.
- [37] F. Yuhua, Neutrosophic Examples in Physics, Neutrosophic Sets and Systems, 1(2013), 26-33.
- [38] M. B. Zeina, Neutrosophic Event-Based Queueing Model, International Journal of Neutrosophic Science ,6(1)(2020), 48-55.
- [39] M. B. Zeina, Erlang Service Queueing Model with Neutrosophic Parameters, International Journal Neutrosophic Science,
6(2)(2020), 106-112.
Year 2022,
, 380 - 389, 30.09.2022
Carlos Granados
,
Ajoy Kanti Das
,
Birojit Das
References
- [1] M. Abdel-Basset, N. A. Nabeeh, H. A. El-Ghareeb and A. Aboelfetouh, Utilizing Neutrosophic Theory to Solve Transition
Di?culties of IoT-Based Enterprises, Enterprise Information Systems, 14(9-10)(2019), 1304?1324.
- [2] R. Alhabib, M. M. Ranna, H. Farah and A. Salama, Some Neutrosophic Probability Distributions, Neutrosophic Sets and
Systems, 22(2018), 30-38.
- [3] R. Alhabib and A. A. Salama, The Neutrosophic Time Series-Study Its Models (Linear-Logarithmic) and test the Coefficients Significance of Its linear model, Neutrosophic Sets and Systems, 33(2020), 105-115
- [4] R. Alhabib and A. A. Salama, Using Moving Averages To Pave The Neutrosophic Time Series, International Journal of
Neutrosophic Science, 3(1)(2020), 14-20.
- [5] M. Ali, F. Smarandache, M. Shabir and L. Vladareanu, Generalization of Neutrosophic Rings and Neutrosophic Fields,
Neutrosophic Sets and Systems, 5(2014), 9-14.
- [6] J. Anuradha and V. S, Neutrosophic Fuzzy Hierarchical Clustering for Dengue Analysis in Sri Lanka, Neutrosophic Sets
and Systems, 31(2020), 179-199.
- [7] M. Bisher and A. Hatip, Neutrosophic Random variables, Neutrosophic Sets and Systems, 39(2021), 45-52.
- [8] A. Chakraborty, B. Banik, S. P. Mondal and S. Alam, Arithmetic and Geometric Operators of Pentagonal Neutrosophic
Number and its Application in Mobile Communication Service Based MCGDM Problem, Neutrosophic Sets and Systems,
32(2020), 61-79.
- [9] S. Das, R. Das, C. Granados, A. Mukherjee, Pentapartitioned neutrosophic Q-ideals of Q-algebra, Neutrosophic Sets and
Systems 41(2021), 53-63.
- [10] S. Das, R. Das, C. Granados, Topology on quadripartitioned neutrosophic sets, Neutrosophic Sets and Systems 45(2021),
54-61.
- [11] O. A. Ejaita and P. Asagba ,An Improved Framework for Diagnosing Confusable Diseases Using Neutrosophic Based Neural
Network, Neutrosophic Sets and Systems, 16(2017), 28-34.
- [12] L. Esther Valencia Cruzaty, M. Reyes Tomalá and C. Manuel Castillo Gallo, A Neutrosophic Statistic Method to Predict
Tax Time Series in Ecuador, Neutrosophic Sets and Systems, 34(2020), 33-39
- [13] C. Granados, New results on neutrosophic random variables. Neutrosophic Sets and Systems, 47(2021), 286-297.
- [14] C. Granados and J. Sanabria, On independence neutrosophic random variables, Neutrosophic Sets and Systems, 47(2021),
541-557.
- [15] C. Granados and A. Dhital, Statistical Convergence of Double Sequences in Neutrosophic Normed Spaces, Neutrosophic
Sets and Systems, 42(2021), 333?-.
- [16] C. Granados, A. Dhital, New results on Pythagorean neutrosophic open sets in Pythagorean neutrosophic topological
spaces, Neutrosophic Sets and Systems 43(2021), 12-23.
- [17] C. Granados, Una nueva noció de conjuntos neutrosóficos a través de los conjuntos∗ b-abiertos en espacios topológicos
- neutrosó?cos, Eco Matemático 12(2)(2021), 1-12.
[18] C. Granados, Un nuevo estudio de los conjuntos supra neutrosophic crisp, Revista Facultad de Ciencias Básicas 16(2)(2020),
65-75.
[19] K. Hamza Alhasan and F. Smarandache, Neutrosophic Weibull distribution and Neutrosophic Family Weibull Distribution,
Neutrosophic Sets and Systems, 28(2019), 191-199.
- [20] H. Kamaci, Neutrosophic Cubic Hamacher Aggregation Operators and Their Applications in Decision Making, Neutro-
sophic Sets and Systems, 33(2020), 234-255.
- [21] W. B. V. Kandasamy and F. Smarandache, Neutrosophic Rings, Hexis, Phoenix, Arizona: Infinite Study, 2006.
- [22] M. M. Lotfy, S. ELhafeez, M. Eisa and A. A. Salama, Review of Recommender Systems Algorithms Utilized in Social
Networks based e-Learning Systems & Neutrosophic System, Neutrosophic Sets and Systems, 8(2015), 32-41.
- [23] N. A. Nabeeh, M. Abdel-Basset and G. Soliman, A model for evaluating green credit rating and its impact on sustainability
performance, Journal of Cleaner Production, 280(1)(2021), 124-299.
- [24] N. A. Nabeeh, F. Smarandache, M. Abdel-Basset, H. A. El-Ghareeb and . A. Aboelfetouh, An Integrated Neutrosophic-
TOPSIS Approach and its Application to Personnel Selection: A New Trend in Brain Processing and Analysis, IEEE
Access, 29734-29744, 2017.
- [25] N. A. Nabeeh, M. Abdel-Basset, H. A. El-Ghareeb and A. Aboelfetouh , Neutrosophic Multi-Criteria Decision Making
Approach for IoT-Based Enterprises, IEEE Access, 2019.
- [26] N. Olgun and A. Hatip, The E?ect Of The Neutrosophic Logic On The Decision Making, in Quadruple Neutrosophic
Theory And Applications, Belgium, EU, Pons Editions Brussels, 2020, 238-253.
- [27] S. K. Patro and F. Smarandache, The neutrosophic statistical distribution, more problems, more solutions, Neutrosophic
Sets and Systems, 12(2016), 73-79.
- [28] R. Sahin, Neutrosophic Hierarchical Clustering Algoritms, Neutrosophic Sets and Systems, 2(2014), 19-24.
- [29] M. Sahin, N. Olgun, V. Uluçay, A. Karg?n and F. Smarandache, A New Similarity Measure Based on Falsity Value between
Single Valued Neutrosophic Sets Based on the Centroid Points of Transformed Single Valued Neutrosophic Numbers with
Applications to Pattern Recognition, Neutrosophic Sets and Systems, 15(2017), 31-48.
- [30] A. Salama, A. Sharaf Al-Din, I. Abu Al-Qasim, R. Alhabib and M. Badran, Introduction to Decision Making for Neutro-
sophic Environment Study on the Suez Canal Port, Neutrosophic Sets and Systems, 35(2020), 22-44.
- [31] Salama.A.A, Smarandache. F, Neutrosophic Crisp Set Theory. Education Publishing, Columbus, 2015.
- [32] Salama. A.A, Smarandache. F, and Kroumov. V, Neutrosophic Crisp Sets & Neutrosophic Crisp Topological Spaces.
Neutrosophic Sets and Systems, Vol. 2, pp.25-30, 2014.
- [33] G. Shahzadi, M. Akram and A. B. Saeid, An Application of Single-Valued Neutrosophic Sets in Medical Diagnosis, Neu-
trosophic Sets and Systems, 18(2017), 80-88.
- [34] F. Smarandache, Neutrosophic Set a Generalization of the Intuitionistic Fuzzy Sets, Inter. J. Pure Appl. Math., 2005,
287-297.
- [35] F. Smarandache, Introduction to Neutrosophic Statistics, USA: Sitech & Education Publishing, 2014.
- [36] F. Smarandache, Introduction to Neutrosophic Measure, Neutrosophic Integral and Neutrosophic Probability, Craiova,
Romania: Sitech - Education, 2013.
- [37] F. Yuhua, Neutrosophic Examples in Physics, Neutrosophic Sets and Systems, 1(2013), 26-33.
- [38] M. B. Zeina, Neutrosophic Event-Based Queueing Model, International Journal of Neutrosophic Science ,6(1)(2020), 48-55.
- [39] M. B. Zeina, Erlang Service Queueing Model with Neutrosophic Parameters, International Journal Neutrosophic Science,
6(2)(2020), 106-112.