1
Sakthi Institute of Information and Management Studies, Pollachi, Coimbatore, Tamil Nadu - 642001, India
(kungum99522@gmail.com)
2
Akshaya College of Engineering and Technology, Kinathukadavu, Coimbatore, Tamil Nadu - 642109, India
(lathashrilishanth@gmail.com)
3
Department of Mathematics, Silapathar College, Dhemaji, Assam – 787059, India
(utpalsaikiajorhat@gmail.com)
4
Department of Mathematics, Mount Carmel College (Autonomous), Affiliated to Bengaluru City University, Bengaluru - 560052, Karnataka, India
(arjoemi@gmail.com)
5
Department of Computer Science, Ram Lal Anand College, University of Delhi- 110021, Delhi, India
(sakshitaareshkhanna@gmail.com)
6
Department of Mathematics, Arul Anandar College (Autonomous), Karumathur-625514, Tamil Nadu, India
(nivetha.martin710@gmail.com)
7
Department of Computer Science and Engineering, Bharati Vidyapeeth’s College of Engineering, Delhi -110063, Delhi, India
(mohit.tiwari@bharatividyapeeth.edu)
8
Department of Applied Mathematics, Ayandegan Institute of Higher Education, Tonekabon, Iran
(sayyed.edalatpanah48@gmail.com)
Abstract :
The algebraic structures Group, Ring, Field and Vector spaces are important innovations in Mathematics. Most of the theoretical concepts of Mathematics are based on the theorems related to these algebraic structures. Initially many mathematicians developed theorems related to all these algebraic structures. In 20th century most of the researchers introduced the theorems on the algebraic structures with Fuzzy and Intuitionistic fuzzy sets. Recently in 21st century the researchers concentrated on Neutrosophic sets and introduced the algebraic structures like Neutrosophic Group, Neutrosophic Ring, Neutrosophic Field, Neutrosophic Vector spaces and Neutrosophic Linear Transformation. In the current scenario of relating the spaces with the structures, we have introduced the concepts of Neutrosophic topological vector spaces. In this article, the study of Neutrosophic Topological vector spaces has been initiated. Some basic definitions and properties of classical vector spaces are generalized in Neutrosophic environment over a Neutrosophic field with continuous functions. Neutrosophic linear transformations and their properties are also included in Neutrosophic Topological Vector spaces. This article is an extension work of fuzzy and intuitionistic fuzzy vector spaces which were introduced in fuzzy and intuitionistic fuzzy environments. Even though it is an extension work, Neutrosophic Topological Vector space will play an important role in Neural Networks, Image Processing, Machine Learning and Artificial Intelligence Algorithms.
Keywords :
Topological Vector Spaces; Fuzzy , Intuitionistic Fuzz and Neutrosophic Topological Vector space; Neutrosophic continuous function; Neutrosophic proper function; Neutrosophic Linear Transformation
References :
[1] Alexandre Grothendieck, Topological vector spaces, Gordon and Breach, 1973.
[2] Agboola. A.A.A and Akinleye. S.A, Neutrosophic Vector Spaces, Neutrosophic Sets and Systems, Vol.4, 2014, 9-18.
[3] Agboola. A.A.A., A. O. Akwu, and Y. T. Oyebo. Neutrosophic Groups and Neutrosophic Subgroups, Int. J. Math.Comb, 3, 2012, 1- 9.
[4] Anand, M.C.J., Bharatraj, J.: Gaussian qualitative trigonometric functions in a fuzzy circle. Adv. Fuzzy Syst. 2018, 1–9 (2018).
[5] Anand, M.C.J., Bharatraj, J.: Interval-valued neutrosophic numbers with WASPAS. In: Fuzzy Multi-criteria Decision-Making Using Neutrosophic Sets. pp. 435–453. Springer International Publishing, Cham (2019).
[6] Atanassov, K. T. (1986) Intuitionistic fuzzy sets, Fuzzy Sets and Systems, 20, 87–96.
[7] Bharatraj, J., Anand, M. C. J.: Power harmonic weighted aggregation operator on single-valued trapezoidal neutrosophic numbers and interval-valued neutrosophic sets. In: Fuzzy Multi-criteria Decision-Making Using Neutrosophic Sets. pp. 45–62. Springer International Publishing, Cham (2019)
[8] Buckley.J.J and Aimin Yan, Fuzzy topological vector space over R, Fuzzy sets and systems, Vol.105, 1999, 259-275.
[9] Coker. D., (1997) An introduction to intuitionistic fuzzy topological spaces, Fuzzy Sets and Systems, 88, 81–89.
[10] Cetkin.V, Pazar varol.B and Aygun.H, An algebraic perspective on Neutrosophic sets: fields and linear spaces, Journal of Linear and Topological Algebra, Vol.10(3), 2021, 187-198.
[11] Devadoss, A. V., Anand, M. C. J., Felix., A.: A CETD matrix approach to analyze the dimensions of the personality of a person. In: 2014 International Conference on Computational Science and Computational Intelligence. IEEE (2014).
[12] Francois Treves; Topological Vector Spaces, Distributions and Kernels, Academic Press, inc., Harcourt Brace Jovanovich, Publishers, California, 1967.
[13] Hur, K., Kang, H. W., & Song, H. K. (2003) Intuitionistic fuzzy subgroups and subrings, Honam Math. J., 25, 19–41.
[14] Katsaras.A.K and Liu.D.B, Fuzzy vector spaces and Fuzzy Topological spaces, Journal of Mathematical Analysis and Applications, Vol.58, 1977, 135-146.
[15] Katsaras, A. K. (1981) Fuzzy topological vector spaces I, Fuzzy sets and systems, 6, 85–95.
[16] Kungumaraj.E and Narmatha.S, Topologies generated by Triangular Neutrosophic numbers, Gradiva Review Journal, Vol.8(8), 2022, 511-515
[17] F. G. Lupi´a˜nez, On various neutrosophic topologies, The International Journal of Systems and Cybernetics, 38(6) (2009), 1009–1013.
[18] Md. Jahid, Topological Vector Spaces, Journal of Emerging Technologies and Innovative Research, Vol.6(6), 2019, 451-453.
[19] Manshath. A, Kungumaraj.E, Lathanayagam. E, M. Clement Joe Anand, Nivetha Martin, Elangovan Muniyandy, S. Indrakumar. (2024). Neutrosophic Integrals by Reduction Formula and Partial Fraction Methods for Indefinite Integrals. International Journal of Neutrosophic Science, 23 ( 1 ), 08-16.
[20] Miriam, M.R., Martin, N., Anand, M.C.J.: Inventory model promoting smart production system with zero defects. Int. J. Appl. Comput. Math. 9, (2023).
[21] Moumita Chiney and S. K. Samanta, IF Topological vector spaces, Notes on Intuitionistic Fuzzy Sets, Vol.24 (2), 2018, 33-51.
[22] Raj, P.J., Prabhu, V.V., Krishnakumar, V. Anand. M.C.J.: Solar Powered Charging of Fuzzy Logic Controller (FLC) Strategy with Battery Management System (BMS) Method Used for Electric Vehicle (EV). Int. J. Fuzzy Syst. (2023).
[23] Roopkumar R., & Kalaivani C., Continuity of intuitionistic fuzzy proper functions on intuitionistic smooth fuzzy topological spaces, Notes on Intuitionistic Fuzzy Sets, 16(3), 2010, 1–21.
[24] A. Salama and S. AL-Blowi, generalized neutrosophic set and generalized neutrosophic topological spaces, Computer Science and Engineering, 2(7), (2012), 129–132.
[25] Santhi.R and Kungumaraj.E, Topologies Generated by Intuitionistic fuzzy numbers, Notes on Intuitionistic Fuzzy Sets, Vol.26(1), 2020, 36-45.
[26] Serkan Karatas and Cemil Kuru, Neutrosophic Topology, Neutrosophic sets and systems, Vol.13, 2016, 90-95.
[27] Sudha.S, Nivetha Martin , M. Clement Joe Anand, Palanimani. P.G., Thirunamakkani.T., Ranjitha. B., MACBETH – MAIRCA Plithogenic Decision Making on Feasible Strategies of Extended Producer’s Responsibility towards Environmental Sustainability, Vol.22(2), 2023, 114 – 130.
[28] Szmidt, E., & Kacprzyk, J. (1996) Intuitionistic fuzzy sets in group decision making, Notes on Intuitionistic Fuzzy Sets, 2 (1), 11–14.
[29] Varalakshmi, A., Santhosh Kumar, S., Shanmugapriya, M.M., Mohanapriya, G., Anand, M.C.J.: Markers location monitoring on images from an infrared camera using optimal fuzzy inference system. Int. J. Fuzzy Syst. 25, 731–742 (2023).
[30] Vasantha Kandasamy.W.B and F. Smarandache. Neutrosophic Rings, Hexis, Phoenix, Arizona, 2006.
[31] Zadeh, L.A. (1965) Fuzzy sets, Information and Control, 338–353.
[32] P. Justin Raj, V. V. Prabhu, V. Krishnkumar, M. Clement Joe Anand, “Solar Powered Charging of Fuzzy Logic Controller (FLC) Strategy with Battery Management System (BMS) Method Used for Electric Vehicle (EV)”, International Journal of Fuzzy Systems, Vol. 25, pp. 2876-2888, 2023.
[33] M. Clement Joe Anand, C. B. Moorthy,a S. Sivamani, S. Indrakumar, K. Kalaiarasi, A. Barhoi, “Fuzzy intelligence inventory decision optimization model of sustainability and green technologies for mixed uncertainties of carbon emission,” In: 2023 International Conference on Information Management (ICIM), IEEE, 2023.
[34] M. Clement Joe Anand, Nivetha Martin, A. Clementking, S. Rani, S. S. Priyadharshini, S. Siva,“Decision making on optimal selection of advertising agencies using machine learning,” In: 2023 International Conference on Information Management (ICIM), IEEE , 2023.
[35] M. R. Miriam, Nivetha Martin, and M. Clement Joe Anand, “Inventory model promoting smart production system with zero defects,” International Journal of Applied and Computational Mathematics, vol. 9(4), 2023. Broumi, S., Sundareswaran, R., Shanmugapriya, M., Bakali, A., & Talea, M. (2022). Theory and Applications of Fermatean Neutrosophic Graphs. Neutrosophic Sets and Systems, 50, 248-286.
[36] Broumi, S., Mohanaselvi, S., Witczak, T., Talea, M., Bakali, A., & Smarandache, F. (2023). Complex fermatean neutrosophic graph and application to decision making. Decision Making: Applications in Management and Engineering, 6(1), 474-501.
[37] Broumi, S., Raut, P. K., & Behera, S. P. (2023). Solving shortest path problems using an ant colony algorithm with triangular neutrosophic arc weights. International Journal of Neutrosophic Science, 20(4), 128-28.
[38] Broumi, S., Sundareswaran, R., Shanmugapriya, M., Singh, P. K., Voskoglou, M., & Talea, M. (2023). Faculty Performance Evaluation through Multi-Criteria Decision Analysis Using Interval-Valued Fermatean Neutrosophic Sets. Mathematics, 11(18), 3817.
[39] Broumi, S., S. krishna Prabha, & Vakkas Uluçay. (2023). Interval-Valued Fermatean Neutrosophic Shortest Path Problem via Score Function. Neutrosophic Systems With Applications, 11, 1–10. https://doi.org/10.61356/j.nswa.2023.83
| Style | # |
|---|---|
| MLA | E. Kungumaraj, E. Lathanayagam, Utpal Saikia, M. Clement Joe Anand, Sakshi Taaresh Khanna, Nivetha Martin, Mohit Tiwari, Seyyed Ahmad Edalatpanah. "Neutrosophic Topological Vector Spaces and its Properties." International Journal of Neutrosophic Science, Vol. 23, No. 2, 2024 ,PP. 63-76 (Doi : https://doi.org/10.54216/IJNS.230206) |
| APA | E. Kungumaraj, E. Lathanayagam, Utpal Saikia, M. Clement Joe Anand, Sakshi Taaresh Khanna, Nivetha Martin, Mohit Tiwari, Seyyed Ahmad Edalatpanah. (2024). Neutrosophic Topological Vector Spaces and its Properties. Journal of International Journal of Neutrosophic Science, 23 ( 2 ), 63-76 (Doi : https://doi.org/10.54216/IJNS.230206) |
| Chicago | E. Kungumaraj, E. Lathanayagam, Utpal Saikia, M. Clement Joe Anand, Sakshi Taaresh Khanna, Nivetha Martin, Mohit Tiwari, Seyyed Ahmad Edalatpanah. "Neutrosophic Topological Vector Spaces and its Properties." Journal of International Journal of Neutrosophic Science, 23 no. 2 (2024): 63-76 (Doi : https://doi.org/10.54216/IJNS.230206) |
| Harvard | E. Kungumaraj, E. Lathanayagam, Utpal Saikia, M. Clement Joe Anand, Sakshi Taaresh Khanna, Nivetha Martin, Mohit Tiwari, Seyyed Ahmad Edalatpanah. (2024). Neutrosophic Topological Vector Spaces and its Properties. Journal of International Journal of Neutrosophic Science, 23 ( 2 ), 63-76 (Doi : https://doi.org/10.54216/IJNS.230206) |
| Vancouver | E. Kungumaraj, E. Lathanayagam, Utpal Saikia, M. Clement Joe Anand, Sakshi Taaresh Khanna, Nivetha Martin, Mohit Tiwari, Seyyed Ahmad Edalatpanah. Neutrosophic Topological Vector Spaces and its Properties. Journal of International Journal of Neutrosophic Science, (2024); 23 ( 2 ): 63-76 (Doi : https://doi.org/10.54216/IJNS.230206) |
| IEEE | E. Kungumaraj, E. Lathanayagam, Utpal Saikia, M. Clement Joe Anand, Sakshi Taaresh Khanna, Nivetha Martin, Mohit Tiwari, Seyyed Ahmad Edalatpanah, Neutrosophic Topological Vector Spaces and its Properties, Journal of International Journal of Neutrosophic Science, Vol. 23 , No. 2 , (2024) : 63-76 (Doi : https://doi.org/10.54216/IJNS.230206) |