AbstractHere, an extended discrete tanh function method with a computerized symbolic computation is used constructing a new exact travelling wave solutions of nonlinear differential difference equations of special interest in physics, namely, Hybrid equation, Toda lattice equation and Relativistic Toda lattice difference equations.As a result, we obtain many kinds of exact solutions which include soliton solutions, periodic solutions and rational solutions in a uniform way if solutions of these kinds exist. The method is straightforward and concise, and it can also be applied to other nonlinear difference differential equations in physics
AbstractTraveling wave solutions are obtained by using a relatively new technique which is called Ta...
AbstractIn this paper, an algorithm is presented to find exact polynomial solutions of nonlinear dif...
AbstractIn this paper, we consider the nonlinear evolution equations such as Kawahara equation and m...
Here, an extended discrete tanh function method with a computerized symbolic computation is used con...
We modified the so-called extended simplest equation method to obtain discrete traveling wave soluti...
We extended the (G′/G)-expansion method to two well-known nonlinear differential-difference equation...
We modified the truncated expansion method to construct the exact solutions for some nonlinear diffe...
Differential-difference equations are considered to be hybrid systems because the spatial variable n...
Nonlinear lattice differential equations (also known as differential-difference equations) appear in...
International Conference on Numerical Analysis and Applied Mathematics 2009, ICNAAM-2009; Rethymno, ...
The tanh method is used to compute travelling waves solutions of one-dimensional nonlinear wave and ...
In this paper, a discrete extension of the (G′/G)-expansion method is applied to a relativistic Toda...
We introduce the discrete (G′/G)-expansion method for solving nonlinear differential-difference equa...
The extended simplest equation method is used to solve exactly a new differential-difference equatio...
Of recent increasing interest in the area of fractional calculus and nonlinear dynamics are fraction...
AbstractTraveling wave solutions are obtained by using a relatively new technique which is called Ta...
AbstractIn this paper, an algorithm is presented to find exact polynomial solutions of nonlinear dif...
AbstractIn this paper, we consider the nonlinear evolution equations such as Kawahara equation and m...
Here, an extended discrete tanh function method with a computerized symbolic computation is used con...
We modified the so-called extended simplest equation method to obtain discrete traveling wave soluti...
We extended the (G′/G)-expansion method to two well-known nonlinear differential-difference equation...
We modified the truncated expansion method to construct the exact solutions for some nonlinear diffe...
Differential-difference equations are considered to be hybrid systems because the spatial variable n...
Nonlinear lattice differential equations (also known as differential-difference equations) appear in...
International Conference on Numerical Analysis and Applied Mathematics 2009, ICNAAM-2009; Rethymno, ...
The tanh method is used to compute travelling waves solutions of one-dimensional nonlinear wave and ...
In this paper, a discrete extension of the (G′/G)-expansion method is applied to a relativistic Toda...
We introduce the discrete (G′/G)-expansion method for solving nonlinear differential-difference equa...
The extended simplest equation method is used to solve exactly a new differential-difference equatio...
Of recent increasing interest in the area of fractional calculus and nonlinear dynamics are fraction...
AbstractTraveling wave solutions are obtained by using a relatively new technique which is called Ta...
AbstractIn this paper, an algorithm is presented to find exact polynomial solutions of nonlinear dif...
AbstractIn this paper, we consider the nonlinear evolution equations such as Kawahara equation and m...