The present study further examines two recent semi-analytic methods, a reduced order of nonlinear differential transformation method (also called RDTM) and differential transformation method along with Pade approximation to discuss Jaulent–Miodek and coupled Whitham–Broer–Kaup equations. The basic ideas of these methods are briefly introduced and performance of the proposed methods for above mentioned equations is evaluated via comparing with exact solution. The results illustrate that the so-called DTM method, unlike RDTM, due to the presence of secular terms (similar to perturbation method), cannot be found practical for nonlinear partial differential equations (particularly in Acoustic and Wave propagation problems) even through utilizin...
AbstractIn this paper, a direct and unified algorithm for constructing multiple travelling wave solu...
In this thesis, first the tanh method, a method for obtaining exact traveling wave solutions to nonl...
In this research article, a novel analytical and numerical solutions of the Caudrey–Dodd–Gibbon–Sawa...
AbstractThe present study further examines two recent semi-analytic methods, a reduced order of nonl...
AbstractThe present study further examines two recent semi-analytic methods, a reduced order of nonl...
This paper proposes another use of the Differential transform method (DTM) in obtaining approximate ...
The improved tanh-function method is a powerful The improved tanh-function method is a powerful tool...
By making use of reduced differential transform method (RDTM), we analyse two model problems: the po...
AbstractIn this paper, we applied the reduced differential transform method (RDTM) for solving two t...
The differential transform and least square are analytical methods for solving differential equation...
In this paper, the G'/G expansion method with the aid of computer algebraic system Maple is used for...
WOS: 000405975100049In this study, exact solutions of the nonlinear partial differential equations h...
In this article, the Sinh–Gordon function method and sub-equation method are used to construct trave...
We present a wave propagation method rigorous in one-way and two-way wave theory for complex velocit...
We employ the (G′/G)-expansion method to seek exact traveling wave solutions of two nonlinear wave e...
AbstractIn this paper, a direct and unified algorithm for constructing multiple travelling wave solu...
In this thesis, first the tanh method, a method for obtaining exact traveling wave solutions to nonl...
In this research article, a novel analytical and numerical solutions of the Caudrey–Dodd–Gibbon–Sawa...
AbstractThe present study further examines two recent semi-analytic methods, a reduced order of nonl...
AbstractThe present study further examines two recent semi-analytic methods, a reduced order of nonl...
This paper proposes another use of the Differential transform method (DTM) in obtaining approximate ...
The improved tanh-function method is a powerful The improved tanh-function method is a powerful tool...
By making use of reduced differential transform method (RDTM), we analyse two model problems: the po...
AbstractIn this paper, we applied the reduced differential transform method (RDTM) for solving two t...
The differential transform and least square are analytical methods for solving differential equation...
In this paper, the G'/G expansion method with the aid of computer algebraic system Maple is used for...
WOS: 000405975100049In this study, exact solutions of the nonlinear partial differential equations h...
In this article, the Sinh–Gordon function method and sub-equation method are used to construct trave...
We present a wave propagation method rigorous in one-way and two-way wave theory for complex velocit...
We employ the (G′/G)-expansion method to seek exact traveling wave solutions of two nonlinear wave e...
AbstractIn this paper, a direct and unified algorithm for constructing multiple travelling wave solu...
In this thesis, first the tanh method, a method for obtaining exact traveling wave solutions to nonl...
In this research article, a novel analytical and numerical solutions of the Caudrey–Dodd–Gibbon–Sawa...