[1]Abbasbandy, S., Nieto J. J., Alavi M., (2005) Tuning of reachable set in one dimensional fuzzy differential inclusions, Chaos, Solitons & Fractals, 26, 1337–1341.
[2]Abbasbandy, S. (2004) Numerical methods for fuzzy differential inclusions, Computing Mathematics Application, 48, 1633–1641.
[3]Abbod, M. F., Von Keyserlingk, D. G., Linkens, D. A., Mahfouf, M. (2001) Survey of utilisation of fuzzy technology in medicine and healthcare, Fuzzy Sets Syst, 120, 331-349.
[4]Agrawal, O. P. (2004) A general formulation and solutions scheme for fractional optimal control problem, Nonlinear Dynamics, 38, 323-337.
[5]Agrawal, O. P. (2007) A formulation and numerical scheme for fractional optimal control problems, Journal of Vibration and Control, 13, 1269-1281.
[6]Agarwal, R. P., O’Regan, D.,Lakshmikantham, V. (2005) Viability theory and fuzzy differential equations, Fuzzy Sets and Systems, 151, 563-580.
[7]Agarwal, R. P., O’Regan, D., Lakshmikantham, V. (2005) Maximal solutions and existence theory for fuzzy differential and integral equations, J. Appl. Anal, 11, 171-186.
[8]Agarwal, R. P., O’Regan, D., Lakshmikantham, V. (2003) A stacking theorem approach for fuzzy differential equations, Nonlinear Anal, 55, 299-312.
[9]Bede, B., Gal, S. G. (2010) Solutions of fuzzy differential equations based on generalized differen- tiability, Commun. Math. Anal, 9, 22-41.
[10]Bourdin, L. (2012) A class of fractional optimal control problems and fractional Pontryagin’s sys- tems. Existence of a fractional Noether’s theorem, arXiv preprint arXiv:1203.1422.
[11]Diamond, P., Kloeden, P. E. (1994) “Metric space of Fuzzy sets Theory And Applications”, World scientific publishing.
[12]Filev, D., Angelove, P., (1992) Fuzzy optimal control, Fuzzy Sets and Systems, 47, 151-156.
[13]Gal, S. G. (2000) Approximation Theory in Fuzzy Setting, In Anastassiou, G.A. (ed.) Handbook of Analytic-Computational Methods in Applied Mathematics, ch. 13, pp. 617–666. Chapman & Hall⧸CRC, Boca Raton .
[14]Karimyar, J. M., Fakharzadeh, J. A. (2018) Fractional Fuzzy Optimal Control Problem Governed by Fuzzy System, International Journal of Pharmaceutical Reasearch and Allied sciences,151-158.
[15]Kilbas, A., Srivastava, H., Trujillo, J. (2006) Theory and Applications of Fractional Differential Equations.
[16]Kloeden, P. (1991) Remarks on peano-like theorems for fuzzy differential equations, Fuzzy Sets and Systems, 44, 161-164.
[17]Lotfi A., Dehghan M. and Yousefi S. A. (2011) A numerical tehnique for solving the fractional optimal control problems, Computers and Mathematics with Applications, 62, 1055-1067.
[18]Mostafa, A. M., Osman, M. (2021) A Numerical Technique for Solving Fuzzy Fractional Optimal Control Problems, Journal of Computational Analysis and Applications, 29, 413-430.
[19]Mortezaee, M. (2022) An application of a fuzzy system for solving time delay fractional optimal control problems with Atangana–Baleanu derivative, Optimal Control Applications and Methods, 5, 1753-1777.
[20]Najariyan, M., Farahi, M. H. (2013) Optimal control of fuzzy controlled system with fuzzy initial conditions, Iranian Journal of Fuzzy Systems, 10, 21-35.
[21]Najariyan, M., Farahi, M. H., Alavian, M. (2011) Optimal control of HIV infection by using fuzzy dynamical systems, The Journal of Mathematics and Computer Science, 2, 639-649.
[22]Naschie, M. S. (2004) The concepts of E-infinite: an elementary introduction to the Cantorianfractal theory of quantum physics, Chaos, Solitons & Fractals, 22, 495-511.
[23]Naschie, M. S. (2004) A review of E-infinite theory and the mass spectrum of high energy particle physics, Chaos, Solitons and Fractals, 19, 209-236.
[24]Naschie, M. S. (2005) On a fuzzy Kahler manifold which is consistent with slit experiment, Inter- national Journal of Nonlinear Science and Numerical Simulation, 6, 95-98.
[25]Naschie, M. S. (2005) From experimental quantum optics to quantum gravity via a fuzzy Kahler manifold, Chaos,Solitons and Fractals, 25, 969-977.
[26]Nguyen, H. T. (1978) A note on the extension principle for fuzzy sets, J. Math. Anal. Appl., 64, 369-380.
[27]Nieto, J., Khastan, A., Ivaz, K. (2009) Numerical solution of fuzzy differential equations under generalized differentiability, Nonlinear Anal. Hybrid Syst, 3, 700-707.
[28]Park, J. H., Park, J. S., Kwun, Y. C. (2006) Controllability for the semi linear fuzzy integro- differential equations with nonlocal conditions, Lecture Notes in Artificial Intelligence, LNAI 4223, 221-230.
[29]Pearson, D. W. (1997) A property of linear fuzzy differential equations, Appl. Math. Letter, 10, 99-103.
[30]Seikkala, S. (1987) On the fuzzy initial value problem, Fuzzy Sets Syst, 24, 319–330.
[31]Seikkala, S., Vorobiev, D. (2002) Towards the theory of fuzzy differential equations, Fuzzy Sets and Systems, 125, 231-237.
[32]Xu, J., Liao, Z., Nieto, J. (2010) A class of differential dynamical systems with fuzzy matrices, J. Math. Anal. Appl., 368, 54-68.
[33]Zhao, Y., Zhu, Y. (2010) Fuzzy optimal control of linear quadratic models, Computers and Mathe- matics with Applications, 60, 67-73.
[34]Zimmermann, H. J. (1987) fuzzy programming and linear programming with several objective func- tion, Fuzzy set and System, 1, 45-55.
