[1] Khalifa, H. A. (2019). On solving two-person zero-sum fuzzy matrix games via linear programming approach. International journal of research in industrial engineering, 8(1), 17-27.
[2] Amin-Tahmasbi, H., & Hami, M. (2019). Stuff scheduling in capillary marketing and analyse of its impact on the company’s financial issues. International journal of research in industrial engineering, 8(1), 53-65.
[3] Tavakoli, M. M., Molavi, B., & Shirouyehzad, H. (2017). Organizational performance evaluation considering human capital management approach by fuzzy-dea: a case study. International journal of research in industrial engineering, 6(1), 1-16.
[4] Ezzati, R., Maleknejad, K., & Fathizadeh, E. (2017). CAS Wavelet Function Method for Solving Abel Equations with Error Analysis. International journal of research in industrial engineering, 6(4), 350-364.
[5] Taghi-Nezhad, N. A., & Taleshian, F. (2018). A Solution Approach for Solving Fully Fuzzy Quadratic Programming Problems. Journal of applied research on industrial engineering, 5(1), 50-61.
[6] Adabitabar Firozja, M., Babakordi, F., & Shahhosseini, M. (2011). Gauss elimination algorithm for interval matrix. International journal of industrial mathematics, 3(1), 9-15.
[7] Babakordi, F., & Allahviranloo, T. (2016). An efficient method for solving LR fuzzy dual matrix systems. Journal of intelligent & fuzzy systems, 30(1), 575-581.
[8] Nasseri, S. H., Taghi-Nezhad, N., & Ebrahimnejad, A. (2017). A note on ranking fuzzy numbers with an area method using circumcenter of centroids. Fuzzy information and engineering, 9(2), 259-268.
[9] Goodarzi, F. K., Taghinezhad, N. A., & Nasseri, S. H. (2014). A new fuzzy approach to solve a novel model of open shop scheduling problem. Univ Politeh Buchar Sci Bull Ser A Appl Math Phys, 76(3), 199-210.
[10] Taleshian, F., Fathali, J., & Allah Taghi-Nezhad, N. (2018). Fuzzy majority algorithms for the 1-median and 2-median problems on a fuzzy tree. Fuzzy information and engineering, 10(2), 225-248.
[11] Taghi-nezhad, N., Naseri, H., Khalili Goodarzi, F., &Taleshian Jelodar, F. (2015). Reactive scheduling presentation for an open shop problem focused on jobs’ due dates. Journal of production and operations management, 6(2), 95-112.
[12] Nasseri, S. H., Khalili, F., Taghi-Nezhad, N., & Mortezania, S. (2014). A novel approach for solving fully fuzzy linear programming problems using membership function concepts. Ann. Fuzzy Math. Inform, 7(3), 355-368.
[13] Fazel Rabbi, M. (2018). Assessment of fuzzy failure mode and effect analysis (FMEA) for reach stacker crane (RST): A case study. International journal of research in industrial engineering, 7(3), 336-348.
[14] Kim, J. B., Baartmans, A., & Sahadin, N. S. (1989). Determinant theory for fuzzy matrices. Fuzzy sets and systems, 29(3), 349-356.
[15] Ragab, M. Z., & Emam, E. G. (1995). The determinant and adjoint of a square fuzzy matrix. Information sciences, 84(3-4), 209-220.
[16] Abbasi, F., Allahviranloo, T., & Abbasbandy, S. (2015). A new attitude coupled with fuzzy thinking to fuzzy rings and fields. Journal of intelligent & fuzzy systems, 29(2), 851-861.
[17] Allahviranloo, T., Perfilieva, I., & Abbasi, F. (2018). A new attitude coupled with fuzzy thinking for solving fuzzy equations. Soft computing, 22(9), 3077–3095.
[18] Dhar, M. (2013). A Note on Determinant and Adjoint of Fuzzy Square Matrix. IJ intelligent systems and applications, 5, 58-67.
[19] Allahviranloo, T., & Babakordi, F. (2017). Algebraic solution of fuzzy linear system as: A ̃X ̃+B ̃X ̃ =Y ̃. Soft computing, 21(24), 7463-7472.
[20] Taghi-Nezhad, N. A. (2019). The p-median problem in fuzzy environment: proving fuzzy vertex optimality theorem and its application. Soft computing, 23(22), 11399-11407.
[21] Klir, G. J., Yuan, B. (1995). Fuzzy sets and fuzzy logic: theory and applications. Upper Saddlie River: Prentice-Hall PTR.
[22] Khalili, F., Naseri, H., & Taghi-Nezhad, N. A. (2019). A new interactive approach for solving fully fuzzy mixed integer linear programming problems. Yugoslav journal of operations research. http://yujor.fon.bg.ac.rs/index.php/yujor/article/view/692/649
[23] Nasseri, S. H., Taghi-Nezhad, N. A., & Ebrahimnejad, A. (2017). A novel method for ranking fuzzy quantities using center of incircle and its application to a petroleum distribution center evaluation problem. International journal of industrial and systems engineering, 27(4), 457-484.