[1] S. Abdullh, M. Aslan and K. Ullah, Bipolar fuzzy soft sets and its applications in decision making problem, J. Intell. Fuzzy Syst., (2) 27 (2014), 729-742.
[2] N. Abughazalah, G. Muhiuddin, M. E. Elnair and A. Mahboob, Bipolar fuzzy set theory applied to the certain ideals in BCI-algebras, Symmetry, (4) 14 (2022), 815.
[3] U. Acar, F. Koyuncu and B. Tanay, Soft sets and soft rings, Comput. Math. Appl., 59 (2010), 3458-3463.
[4] M. Akram, N. O. Alsherei, K. P. Shum and A. Farooq, Applications of bipolar fuzzy soft sets in K-algebras, Ital. J. Pure Appl. Math., 32 (2014), 533-546.
[5] M. Akram, Shumaiza and M. Arshad, Bipolar fuzzy TOPSIS and bipolar fuzzy ELECTRE-I methods to diagnosis, Comput. Appl. Math., 39 (2020), 7:1-21.
[6] H. Aktas and N. Cagman, Soft sets and soft groups, Inform. Sci., 177 (2007), 2726-2735.
[7] G. Ali, M. Akram, A. N. Koam and J. C. R. Alcantud, Parameter reductions of bipolar fuzzy soft sets with their decision-making algorithms, Symmetry, (8) 11 (2019), 949.
[8] R. Ameri, Fuzzy hypervector spaces over valued fields, Iran. J. Fuzzy Syst., 2 (2005), 37-47.
[9] R. Ameri and O. R. Dehghan, On dimension of hypervector spaces, Eur. J. Pure Appl. Math., (2) 1 (2008), 32-50.
[10] R. Ameri and O. R. Dehghan, Fuzzy hypervector spaces, Adv. Fuzzy Syst., 2008 (2008), 295649.
[11] R. Ameri and O. R. Dehghan, Fuzzy basis of fuzzy hypervector spaces, Iran. J. Fuzzy Syst., (3) 7 (2010), 97-113.
[12] R. Ameri and O. R. Dehghan, Fuzzy hypervector spaces based on fuzzy singletons, Comput. Math. Appl., 61 (2011), 2933-2943.
[13] R. Ameri and O. R. Dehghan, Dimension of fuzzy hypervector spaces, Iran. J. Fuzzy Syst., (5) 8 (2011), 149-166.
[14] N. Cagman, S. Enginoglu and F. Citak, Fuzzy soft set theory and its applications, Iran. J. Fuzzy Syst., (3) 8 (2011), 137-147.
[15] P. Corsini and V. Leoreanu, Applications of Hyperstructure Theory, Kluwer Academic Publications, 2003.
[16] B. Davvaz and I. Cristea, Fuzzy Algebraic Hyperstructures, Springer, 2015.
[17] B. Davvaz and V. Leareanu-Fotea, Hyperring Theory and Applications, International Academic Press, USA, 2007.
[18] O. R. Dehghan, Sum and scalar product of fuzzy subhyperspaces, J. Discrete Math. Sci. Cryptogr., (4) 23 (2020), 841-860.
[19] O. R. Dehghan, Various kinds of fuzzy qoutient hypervector spaces, J. Intell. Fuzzy Syst., 35 (2018), 3163-3170.
[20] O. R. Dehghan, Linear functionals on hypervector spaces, Filomat, (9) 34 (2020), 3031-3043.
[21] O. R. Dehghan, Balanced and absorbing fuzzy subsets of hypervector spaces, Comput. Appl. Math., (2) 39 (2020), 1-12 (Article 53).
[22] O. R. Dehghan, Affine and convex fuzzy subsets of hypervector spaces, Comput. Appl. Math., (8) 40 (2021), 1-14 (Article 303).
[23] O. R. Dehghan, Some properties of the set of soft vectors on hypervector spaces, Fuzzy Syst. Appl., (1) 5 (2022), 187-210.
[24] O. R. Dehghan, An introduction to NeutroHyperVector Spaces, Neutrosophic Sets Syst., 58 (2023), 344-366.
[25] O. R. Dehghan, R. Ameri and H. A. Ebrahimi Aliabadi, Some results on hypervector spaces, Ital. J. Pure Appl. Math., 41 (2019), 23-41.
[26] O. R. Dehghan and M. Nodehi, Some results on soft hypervector spaces, Casp. J. Math. Sci., (2) 10 (2021), 224-234.
[27] O. R. Dehghan and M. Norouzi, Generalized fuzzy subhyperspaces based on fuzzy points, Commun. Fac. Sci. Univ. Ank. Ser. A1 Math. Stat. 69 (2020), 782-793.
[28] M. Khan, S. Anis, S. Ahmad and M. Zeeshan, Computational bipolar fuzzy soft matrices with applications in decision making problems, J. Intell. Fuzzy Syst., (6) 44 (2023), 10241-10253.
[29] P. K. Maji, R. Biswas and A. R. Roy, Soft set theory, Comput. Math. Appl., 45 (2003),555-562.
[30] T. Mahmood, U. U. Rehman, A. Jaleel, J. Ahmmad and R. Chinram, Bipolar complex fuzzy soft sets and their applications in decision-making, Mathematics, (7) 10 (2022), 1048.
[31] F. Marty, Sur une generalization de la notion de groupe, 8th Congress des Mathematiciens Scandinaves, Stockholm, (1934), 45-49.
[32] D. Molodtsov, Soft set theory, first results, Comput. Math. Appl., 37 (1999), 19-31.
[33] G. Muhiuddin, H. Harizavi and Y. B. Jun, Bipolar-valued fuzzy soft hyper BCK-ideals in hyper BCK-algebras, Discret. Math. Algorit., (2) 12 (2020), 2050018.
[34] M. Norouzi and R. Ameri, Some new directions in soft (fuzzy) hypermodules, Fuzzy Inf. Eng., (2) 14 (2022), 167-181.
[35] E. Ranjbar-Yanehsari, M. Asghari-Larimi and R. Ameri, Soft hypervector spaces and fuzzy soft hypervector space, Eur. J. Pure Appl. Math., (1) 2 (2019), 118-134.
[36] M. Riaz and S. T. Tehrim, On bipolar fuzzy soft topology with decision-making, Soft Comput., 24 (2020), 18259-18272.
[37] M. Sarwar, M. Akram, S. Shahzadi, Bipolar fuzzy soft information applied to hypergraphs, Soft Comput., (5) 25 (2021), 3417-3439.
[38] M. Sedghi, O. R. Dehghan and M. Norouzi, n-Normed hypervector spaces, J. Math. Sci: Adv. Appl., 45 (2017), 41-59.
[39] A. Sezgin Sezer and A. O. Atagun, A new kind of vector space: soft vector space, Southeast Asian Bull. Math., 40 (2016), 753-770.
[40] M. Scafati-Tallini, Hypervector spaces, Fourth International Congress on Algebraic Hyperstructures and Applications, Xanthi, Greece, (1990), 167-174.
[41] T. Vougiuklis, Hyperstructures and their Representations, Hardonic Press Inc., 1994.
[42] X. Xin, R. A. Borzooei, M. Bakhshi and Y. B. Jun, Intuitionistic fuzzy soft hyper BCKalgebras, Symmetry, (3) 11 (2019), 399.
[43] L. A. Zadeh, Fuzzy sets, Inf. Control, 8 (1965), 338-353.
[44] W. R. Zhang, Bipolar fuzzy sets and relations: A computational framework for cognitive modeling and multiagent decision analysis, Proceedings of the First International Conference of the North American Fuuzy Information Processing Society Biannual Conference, San Antonio, TX, USA, (1994), 305-309.
)