[1] M. Duz, Solution of complex differential equations with variable coefficients by using reduced differential transform, Miskolc Mathematical Notes Vol. 21 (2020), No. 1, pp. 161–170 [2] M. Duz, “Application of Elzaki Transform to first order constant coefficients complex equa ions.” Bulletin of the international mathematical virtual institute., vol. 7, pp. 387–393, 2017, doi: 10.7251/BIMVI1702387D. [3] M. Duz, “On an application of Laplace transforms.” ¨ NTMSCI., vol. 5, no. 2, pp. 193–198, 2017, doi: 10.12732/ijam.v31i1.2. [4] M. Duz, “Solution of complex equations with Adomian Decomposition method.” ¨ TWMS J. App. Eng. Math.., vol. 7, no. 1, pp. 66–73, 2017. [5] Watugala GK (1993) Sumudu transform: a new integral transform to solve differential equations and control engineering problems. Int J Math Educ Sci Technol 24(1):35–43 [6] Anac, H, Merdan, M and Kesemen, Solving for the random component time-fractional partial differential equations with the new Sumudu transform iterative method, SN Applied Sciences (2020) 2:1112 | https://doi.org/10.1007/s42452-020-2625-3 [7] Weerakoon S (1994) Application of Sumudu transform to partial differential equations. Int J Math Educ Sci Technol 25(2):277–283 [8] Weerakoon S (1998) Complex inversion formula for Sumudu transform. Int J Math Edu Sci Technol 29(4):618–621 [9] Demiray ST, Bulut H, Belgacem FBM (2015) Sumudu transform method for analytical solutions of fractional type ordinary differential equations. Math Prob Eng. https ://doi. org/10.1155/2015/13169 0 [10] Kumar M, Daftardar-Gejji V (2018) Exact solutions of fractional partial differential equations by Sumudu transform iterative method. arXiv :1806.03057 v1 [11] Rahman NAA, Ahmad MZ (2017) Solving fuzzy fractional differential equations using fuzzy Sumudu transform. J Nonlinear Sci Appl 10(5):2620–2632 [12] Prakash A, Kumar M, Baleanu D (2018) A new iterative technique for a fractional model of nonlinear Zakharov–Kuznetsov equations via Sumudu transform. Appl Math Comput 334:30–40 [13] H. Eltayeb and A. Kılıçman, A Note on the Sumudu Transforms and Differential Equations, Applied Mathematical Sciences, Vol. 4, 2010, no. 22, 1089 – 1098 [14] Watugala, G.K. The Sumudu transform for functions of two variables, Mathematical Engineering in Industry, 8(4)(2002), pp. 293–302. [15] A. Kılıçman, H. Eltayeb and R. P. Agarwal, On Sumudu Transform and System of Differential Equations, Abstract and Applied Analysis Volume 2010, Article ID 598702, 11 pages [16] Merdan, M., Anac, H., Bekiryazici, Z. and Kesemen, T. 2019. Solving of Some Random Partial Differential Equations by Using Differential Transformation Method and Laplace-Padé Method, Journal of Gumushane University Institute of Science and Technology, 9(1), 108-118. [17] Merdan, M., Anac, H., Bekiryazici, Z. and Kesemen, T. 2019. Solving of Some Random Partial Differential Equations by Using Differential Transformation Method and Laplace-Padé Method, Journal of Gumushane University Institute of Science and Technology, 9(1), 108-118. [18] Merdan,M., Şişman,Ş., 2020. Analysıs Of Random Dıscrete Tıme Logıstıc Model, Sigma Journal of Engineering and Natural Sciences Sigma, 38(3),1269-1298. [19] Merdan,M., Altay, Ö. and Bekiryazici, Z.2020. Investigation of the Behaviour of Volterra Integral Equations with Random Effects, Journal of Gumushane University Institute of Science and Technology, 10(1), 205-216. [20] Merdan. M, 2020, Ordinary and partial complex differential equations with random effects. Gumushane University, Institute of Science, Master's Thesis. [21] Feller W., 1968. An Introduction to Probability Theory and Its Applications, volume 1, 3rd edition. New York: John Wiley & Sons.