Add to ORKGWe study the performance of the combination of quarter-sweep iteration concept with the Kaudd Successive Over-Relaxation (KSOR) iterative method in solving the discretized one-dimensional time-fractional parabolic equation. We called the mixed of these two concepts as QSKSOR. The time-fractional derivative in Grünwald sense, together with the implicit finite difference scheme was used to discretized the tested problems to form the quarter-sweep implicit finite difference approximation equations in the sense of Grünwald type. This approximation equation of half-sweep will then generate a linear system. Next, we used the proposed QSKSOR iterative method to the generated linear systems before comparing the effectiveness between the other fami...
Solving time-fractional diffusion equation using a numerical method has become a research trend nowa...
In this research, we propose the approximate solution of the time-fractional diffusion equation base...
Solving one-dimensional time-fractional parabolic equations using numerical technique will require s...
This paper presents the application of a half-sweep iteration concept to the Grünwald implicit diffe...
This paper presents the application of a half-sweep iteration concept to the Grünwald implicit diffe...
This paper presents the application of a half-sweep iteration concept to the Grünwald implicit diffe...
This paper presents the application of a half-sweep iteration concept to the Grünwald implicit diffe...
The goal is to show the usefulness of the 4-point half-sweep EGKSOR (4HSEGKSOR) iterative scheme by ...
The goal is to show the usefulness of the 4-point half-sweep EGKSOR (4HSEGKSOR) iterative scheme by ...
This paper will solve one of the fractional mathematical physics models, a one-dimensional time-fra...
In this study, the numerical solution of a space-fractional parabolic partial differential equation ...
In this study, the numerical solution of a space-fractional parabolic partial differential equation ...
In this study, the numerical solution of a space-fractional parabolic partial differential equation ...
The aim of this paper deals with the application of Half-Sweep Accelerated Over- Relaxation (HSAOR) ...
Solving time-fractional diffusion equation using a numerical method has become a research trend nowa...
Solving time-fractional diffusion equation using a numerical method has become a research trend nowa...
In this research, we propose the approximate solution of the time-fractional diffusion equation base...
Solving one-dimensional time-fractional parabolic equations using numerical technique will require s...
This paper presents the application of a half-sweep iteration concept to the Grünwald implicit diffe...
This paper presents the application of a half-sweep iteration concept to the Grünwald implicit diffe...
This paper presents the application of a half-sweep iteration concept to the Grünwald implicit diffe...
This paper presents the application of a half-sweep iteration concept to the Grünwald implicit diffe...
The goal is to show the usefulness of the 4-point half-sweep EGKSOR (4HSEGKSOR) iterative scheme by ...
The goal is to show the usefulness of the 4-point half-sweep EGKSOR (4HSEGKSOR) iterative scheme by ...
This paper will solve one of the fractional mathematical physics models, a one-dimensional time-fra...
In this study, the numerical solution of a space-fractional parabolic partial differential equation ...
In this study, the numerical solution of a space-fractional parabolic partial differential equation ...
In this study, the numerical solution of a space-fractional parabolic partial differential equation ...
The aim of this paper deals with the application of Half-Sweep Accelerated Over- Relaxation (HSAOR) ...
Solving time-fractional diffusion equation using a numerical method has become a research trend nowa...
Solving time-fractional diffusion equation using a numerical method has become a research trend nowa...
In this research, we propose the approximate solution of the time-fractional diffusion equation base...
Solving one-dimensional time-fractional parabolic equations using numerical technique will require s...