Fractional order partial differential equations, as generalization of classical integer order partial differential equations, are increasingly used to model problems in fluid flow, finance and other areas of applications. In this paper we present a collection of numerical algorithms for the solution of nonlinear partial differential equations with space- and time-fractional derivatives. The fractional derivatives are considered in the Caputo sense. Two numerical examples are given to demonstrate the effectiveness of the present methods. Results show that the numerical schemes are very effective and convenient for solving nonlinear partial differential equations of fractional order
This study displays a novel method for solving time-fractional nonlinear partial differential equati...
Fractional differential problems are widely used in applied sciences. For this reason, there is a gr...
In this paper, three eminent types of time-fractional nonlinear partial differential equations are c...
AbstractIn this article, we implement relatively new analytical techniques, the variational iteratio...
This paper presents the results of applying a new iterative method to linear and nonlinear fractiona...
This paper presents the results of applying a new iterative method to linear and nonlinear fractiona...
WOS: 000299647400003In this paper, a new iterative method (NIM) is used to obtain the exact solution...
AbstractIn this paper, two efficient numerical methods for solving system of fractional differential...
This paper introduces a new analytical technique (NAT) for solving a system of nonlinear fractional ...
In this study, nonlinear space-time fractional partial differential equations with variable coeffici...
Solving differential equations of fractional (i.e., non-integer) order in an accurate, reliable and ...
AbstractVariational iteration method has been used to handle linear and nonlinear differential equat...
This book discusses numerical methods for solving partial differential and integral equations, as we...
The fractional Riccati expansion method is proposed to solve fractional differential equations. To i...
In this paper, the Laplace transform, the New iteration method and the Multivariate Pade´ approximat...
This study displays a novel method for solving time-fractional nonlinear partial differential equati...
Fractional differential problems are widely used in applied sciences. For this reason, there is a gr...
In this paper, three eminent types of time-fractional nonlinear partial differential equations are c...
AbstractIn this article, we implement relatively new analytical techniques, the variational iteratio...
This paper presents the results of applying a new iterative method to linear and nonlinear fractiona...
This paper presents the results of applying a new iterative method to linear and nonlinear fractiona...
WOS: 000299647400003In this paper, a new iterative method (NIM) is used to obtain the exact solution...
AbstractIn this paper, two efficient numerical methods for solving system of fractional differential...
This paper introduces a new analytical technique (NAT) for solving a system of nonlinear fractional ...
In this study, nonlinear space-time fractional partial differential equations with variable coeffici...
Solving differential equations of fractional (i.e., non-integer) order in an accurate, reliable and ...
AbstractVariational iteration method has been used to handle linear and nonlinear differential equat...
This book discusses numerical methods for solving partial differential and integral equations, as we...
The fractional Riccati expansion method is proposed to solve fractional differential equations. To i...
In this paper, the Laplace transform, the New iteration method and the Multivariate Pade´ approximat...
This study displays a novel method for solving time-fractional nonlinear partial differential equati...
Fractional differential problems are widely used in applied sciences. For this reason, there is a gr...
In this paper, three eminent types of time-fractional nonlinear partial differential equations are c...