Add to ORKGAn efficient numerical method is employed to approximate the numerical solutions of some very functional, time-fractional partial differential equations. Perturbation Iteration Algorithm applied on fractional PDEs can technically manipulate non-linear and fractional terms pretty well. Similarly, the precision of its results are even better then that of different techniques. Explanatory figures have been presented correlating the approximated and exact solutions and substantiating the precision of results
We implement relatively analytical methods, the homotopy perturbation method and the variational ite...
Nonlinear phenomena play a crucial role in applied mathematics and physics. Although it is very easy...
Abstract: In this study, we propose a new algorithm to find exact solution of nonlinear time- fracti...
The aim of this research was to relate two physical effects forpartial differential equations on the...
The demand of many scientific areas for the usage of fractional partial differential equations (FPDE...
In this work, we have applied the variational iteration method and He’s polynomials to solve partial...
Abstract: In this work, we have applied the variational iteration method and He’s polynomials to sol...
In this paper, time-fractional non-linear partial differential equation with proportional delays are...
In this paper, time-fractional non-linear partial differential equation with proportional delays are...
In this study, a perturbation-iteration algorithm, namely PIA, is applied to solve some types of sys...
Purpose - The purpose of this paper is to consider the time-fractional diffusion-wave equation. The ...
WOS: 000299647400003In this paper, a new iterative method (NIM) is used to obtain the exact solution...
Most physical phenomena are formulated in the form of non-linear fractional partial differential equ...
In this study, Perturbation–Iteration Algorithm, namely PIA, is applied to solve some types of fract...
Fractional order partial differential equations, as generalization of classical integer order partia...
We implement relatively analytical methods, the homotopy perturbation method and the variational ite...
Nonlinear phenomena play a crucial role in applied mathematics and physics. Although it is very easy...
Abstract: In this study, we propose a new algorithm to find exact solution of nonlinear time- fracti...
The aim of this research was to relate two physical effects forpartial differential equations on the...
The demand of many scientific areas for the usage of fractional partial differential equations (FPDE...
In this work, we have applied the variational iteration method and He’s polynomials to solve partial...
Abstract: In this work, we have applied the variational iteration method and He’s polynomials to sol...
In this paper, time-fractional non-linear partial differential equation with proportional delays are...
In this paper, time-fractional non-linear partial differential equation with proportional delays are...
In this study, a perturbation-iteration algorithm, namely PIA, is applied to solve some types of sys...
Purpose - The purpose of this paper is to consider the time-fractional diffusion-wave equation. The ...
WOS: 000299647400003In this paper, a new iterative method (NIM) is used to obtain the exact solution...
Most physical phenomena are formulated in the form of non-linear fractional partial differential equ...
In this study, Perturbation–Iteration Algorithm, namely PIA, is applied to solve some types of fract...
Fractional order partial differential equations, as generalization of classical integer order partia...
We implement relatively analytical methods, the homotopy perturbation method and the variational ite...
Nonlinear phenomena play a crucial role in applied mathematics and physics. Although it is very easy...
Abstract: In this study, we propose a new algorithm to find exact solution of nonlinear time- fracti...