This work is licensed under the Creative Commons Attribution 4.0 Public License.
Adomian G. Nonlinear Stochastic Systems Theory and Applications to Physics. Kluwer Academic Publishers Netherlands; 1989.AdomianG.Nonlinear Stochastic Systems Theory and Applications to PhysicsKluwer Academic PublishersNetherlands1989Search in Google Scholar
Adomian G, Rach R. Equality of partial solutions in the decomposition method for linear or nonlinear partial differential equations.comput Math Appl. 1990;10:9-12.AdomianGRachR.Equality of partial solutions in the decomposition method for linear or nonlinear partial differential equationscomput Math Appl.199010912Search in Google Scholar
Adomian G. Solving Frontier Problems of Physics The Decomposition Method. Kluwer Academic Publishers Boston; 1994.AdomianG.Solving Frontier Problems of Physics The Decomposition MethodKluwer Academic PublishersBoston1994Search in Google Scholar
Adomian G. Solution of physical problems by decomposition. Comput Math Appl. 1994;27:145-154.AdomianG.Solution of physical problems by decompositionComput Math Appl.199427145154Search in Google Scholar
Adomian G. Solutions of nonlinear P.D.E. Appl Math Lett. 1998;11:121-123.AdomianG.Solutions of nonlinear P.D.EAppl Math Lett.199811121123Search in Google Scholar
Yang XJ, Baleanu D, Zhon WP. Approximate Solutions for Diffusion Equations on Cantor Space-Time, Proc of the Romanian Aca Series A. 2013;14(2):127-133.YangXJ.BaleanuD.ZhonWP.Approximate Solutions for Diffusion Equations on Cantor Space-TimeProc of the Romanian Aca Series A.2013142127133Search in Google Scholar
Jafari H, Jassim HK. Local Fractional Adomain Decomposition Method for Solving Two Dimensional Heat conduction Equations with Local Fractional Operators. J of Adv in Math. 2014;9(4):2574-2582.JafariH.JassimHK.Local Fractional Adomain Decomposition Method for Solving Two Dimensional Heat conduction Equations with Local Fractional OperatorsJ of Adv in Math.20149425742582Search in Google Scholar
Yan SP, Jafari H, Jassim HK. Local Fractional Adomian Decomposition and Function Decomposition Methods for Laplace Equation within Local Fractional Operators. Adv in Math Phy. 2014;A ID 161580:1-7.YanSP.JafariH.JassimHK.Local Fractional Adomian Decomposition and Function Decomposition Methods for Laplace Equation within Local Fractional OperatorsAdv in Math Phy.2014A ID 16158017Search in Google Scholar
Ahmad J, Mohyud-Din ST, Yang XJ. Applications of Local Fractional Adomian Decomposition Method to Integral Equations. J of Sci Arts. 2014;1(26):73-82.AhmadJ.Mohyud-DinST.YangXJ.Applications of Local Fractional Adomian Decomposition Method to Integral EquationsJ of Sci Arts.20141267382Search in Google Scholar
Yang XJ, Baleanu D, Lazarević MP, Cajić MS. Fractal Boundary Value Problems for Integral and Differential Equations with Local Fractional Operators. Ther Sci. 2015;19(3):959-966.YangXJ.BaleanuD.LazarevićMPCajićMS.Fractal Boundary Value Problems for Integral and Differential Equations with Local Fractional OperatorsTher Sci.2015193959966Search in Google Scholar
Jassim HK. Local fractional Laplace decomposition method for nonhomogeneous heat equations arising in fractal heat flow with local fractional derivative. Int J Adv Appl Math Mech. 2015;2(4):1-7.JassimHK.Local fractional Laplace decomposition method for nonhomogeneous heat equations arising in fractal heat flow with local fractional derivativeInt J Adv Appl Math Mech.20152417Search in Google Scholar
Ziane D, Baleanu D, Belghaba K, Hamdi Cherif M. Local fractional Sumudu decomposition method for linear partial differential equations with local fractional derivative. J King Saud Univ Sci. 2017;http://dx.doi.org/10.1016/j.jksus.2017.05.002.ZianeD.BaleanuD.BelghabaK.Hamdi CherifM.Local fractional Sumudu decomposition method for linear partial differential equations with local fractional derivativeJ King Saud Univ Sci.2017http://dx.doi.org/10.1016/j.jksus.2017.05.002Search in Google Scholar
Goncalves E, Zeidan D. Numerical Study of Turbulent Cavitating Flows in Thermal Regime. Int J Num Meth Heat- Fluid Flow. 2017;27(7):1487-1503.GoncalvesE.ZeidanD.Numerical Study of Turbulent Cavitating Flows in Thermal RegimeInt J Num Meth Heat- Fluid Flow.201727714871503Search in Google Scholar
Ziane D, Belghaba K, Hamdi Cherif M. Exact solutions for linear systems of local fractional partial differential equations. Mal J of Mat. 2018;6(1):53-60.ZianeD.BelghabaK.Hamdi CherifM.Exact solutions for linear systems of local fractional partial differential equationsMal J of Mat.2018615360Search in Google Scholar
Yang XJ. Fractional Functional Analysis and Its Applications. Asian Academic Hong Kong; 2011.YangXJ.Fractional Functional Analysis and Its ApplicationsAsian AcademicHong Kong2011Search in Google Scholar
Yang XJ. Local Fractional Calculus and Its Applications. World Science Publisher New York USA; 2012.YangXJ.Local Fractional Calculus and Its ApplicationsWorld Science PublisherNew York USA2012Search in Google Scholar
Hu MS, Agarwal RP, Yang XJ. Local Fractional Fourier Series with Application toWave Equation in Fractal Vibrating String. Abs and Appl Anal. 2012;A ID567401:1-15.HuMS.AgarwalRP.YangXJ.Local Fractional Fourier Series with Application toWave Equation in Fractal Vibrating StringAbs and Appl Anal.2012A ID567401115Search in Google Scholar
Srivastava HM, Golmankhaneh AK, Baleanu D, Yang XJ. Local Fractional Sumudu Transform with Application to IVPs on Cantor Sets., Abs Appl Anal. 2014;A:ID620529:7.SrivastavaHM.GolmankhanehAK.BaleanuD.YangXJ.Local Fractional Sumudu Transform with Application to IVPs on Cantor SetsAbs Appl Anal.2014A:ID6205297Search in Google Scholar
Yanga YJ, Yang C, Jin XF. The Yang Laplace transform- DJ iteration method for solving the local fractional differential equation. J Nonl Sci Appl. 20;(10):3023-3029.YangaYJ.YangC.JinXF.The Yang Laplace transform- DJ iteration method for solving the local fractional differential equationJ Nonl Sci Appl.201030233029Search in Google Scholar
Zhao CG, Yang AM, Jafari H, Haghbin A. The Yang-Laplace Transform for Solving the IVPs with Local Fractional Derivative. Abs Appl Anal. 2014;A:ID386459:5pp.ZhaoCG.YangAM.JafariH.HaghbinA.The Yang-Laplace Transform for Solving the IVPs with Local Fractional DerivativeAbs Appl Anal.2014A:ID3864595Search in Google Scholar
Bira B, Raja Sekhar T, Zeidan D. Exact Solutions for Some Time-Fractional Evolution Equations Using Lie Group Theory. Math Meth Appl Scie. 2018;41(16):6717-6725.BiraB.Raja SekharT.ZeidanD.Exact Solutions for Some Time-Fractional Evolution Equations Using Lie Group TheoryMath Meth Appl Scie.2018411667176725Search in Google Scholar
Zhu Y, Chang Q, Wu S. A new algorithm for calculating Adomian polynomials. Appl Math Comput. 2005;169:402-416.ZhuY.ChangQ.WuS.A new algorithm for calculating Adomian polynomialsAppl Math Comput.2005169402416Search in Google Scholar
Sweilam NH, Khader MM. Exact solutions of some coupled nonlinear partial differential equations using the homotopy perturbation method. Comput Math with Appl.2009;58:2134-2141.SweilamNH.KhaderMM.Exact solutions of some coupled nonlinear partial differential equations using the homotopy perturbation methodComput Math with Appl.20095821342141Search in Google Scholar
Rawashdeh M S, Al-JammalLiu H. New approximate solutions to fractional nonlinear systems of partial differential equations using the FNDM. Advan in Diff Equat. 2016:235; 10.1186/s13662-016-0960-x, 1-19.RawashdehM SAl-JammalLiuH.New approximate solutions to fractional nonlinear systems of partial differential equations using the FNDMAdvan in Diff Equat.201623510.1186/s13662-016-0960-x119Open DOISearch in Google Scholar
Zeidan D. The Riemann Problem for a Hyperbolic Model of Two-Phase Flow in Conservative Form. Int J Comput Fluid Dyn. 2011;25(6):299–318.ZeidanD.The Riemann Problem for a Hyperbolic Model of Two-Phase Flow in Conservative FormInt J Comput Fluid Dyn.2011256299318Search in Google Scholar
Elzaki TM, Alamri BAS. Projected Differential Transform Method and Elzaki Transform for Solving System of Nonlinear Partial Differential Equations. W Appl Sci J. 2014;32(9):1974-1979.ElzakiTM.AlamriBAS.Projected Differential Transform Method and Elzaki Transform for Solving System of Nonlinear Partial Differential EquationsW Appl Sci J.201432919741979Search in Google Scholar
