Computing Operational Matrices in Neutrosophic Environments: A Matlab Toolbox

Authors

  • Said Broumi Laboratory of Information Processing, Faculty of Science Ben M’Sik, University Hassan II, B.P 7955, Sidi Othman, Casablanca, Morocco
  • Le Hoang Son VNU University of Science, Vietnam National University, Vietnam
  • Assia Bakali Ecole Royale Navale, Casablanca, Morocco
  • Mohamed Talea Laboratory of Information Processing, Faculty of Science Ben M’Sik, University Hassan II, B.P 7955, Sidi Othman, Casablanca, Morocco
  • Florentin Smarandache University of New Mexico, Math & Science Division, 705 Gurley Ave., Gallup, NM 87301, USA
  • Ganeshsree Selvachandran Faculty of Business and Information Science,UCSIUniversity, Kuala Lumpur, Malaysia

Keywords:

Matlab toolbox, Neutrosophic set, Single valued neutrosophic matrices, Set-theoretic operators

Abstract

 

Neutrosophic set is a generalization of classical set, fuzzy set, and intuitionistic fuzzy set by employing a degree of truth (T), a degree of indeterminacy (I), and a degree of falsehood (F) associated with an element of the dataset. One of the most essential problems is studying set-theoretic operators in order to be applied to practical applications. Developing Matlab toolboxes for computing the operational matrices in neutrosophic environments is essential to gain more widely-used of neutrosophic algorithms. In this paper, we propose some computing procedures in Matlab for neutrosophic operational matrices, especially i) computing the single-valued neutrosophic matrix; ii) determining complement of a single-valued neutrosophic matrix; iii) computing max-min-min and min-max- max of two single-valued neutrosophic matrices; v) computing power of a single-valued neutrosophic matrix; vi) computing additional operation and subtraction of two single-valued neutrosophic matrices; and ix) computing transpose of a single- valued neutrosophic matrix. Numerical examples are given to illustrate their applicability.

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Published

2018-02-18

Issue

Vol. 18 (2017): Neutrosophic Sets and Systems vol. 18 (201`7)

Section

SI#1,2024: Neutrosophical Advancements And Their Impact on Research

License

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

 Creative Commons Attribution (CC BY) license.

How to Cite

Broumi, S., Son, L. H. ., Bakali, A. ., Talea, M. ., Smarandache, F., & Ganeshsree Selvachandran. (2018). Computing Operational Matrices in Neutrosophic Environments: A Matlab Toolbox. Neutrosophic Sets and Systems, 18, 58-66. https://fs.unm.edu/nss8/index.php/111/article/view/417

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