An efficient technique is proposed to solve the one-dimensional Burgers’ equation based on multiquadric radial basis function (MQ-RBF) for space approximation and a Lie-Group scheme for time integration. The comparisons of the numerical results obtained for different values of kinematic viscosity are made with the exact solutions and the reported results to demonstrate the efficiency and accuracy of the algorithm. It is shown that the numerical solutions concur with existing results and the proposed algorithm is efficient and can be easily implemented
Abstract: In this paper we propose a meshfree technique for the numerical solution of the two dimens...
This paper presents a two-step meshless scheme using radial basis functions for the two-dimensional ...
We consider to represent an algorithm for time-fractional Burgers' equation utilizing the multiquadr...
An efficient technique is proposed to solve the one-dimensional Burgers' equation based on multiquad...
An efficient technique is proposed to solve the one-dimensional Burgers' equation based on multiquad...
The nonlinear Burgers’ equation is a simple form of Navier-Stocks equation. The nonlinear nature of ...
In the present paper, two effective numerical schemes depending on a second-order Strang splitting t...
AbstractIn this paper, a meshfree numerical scheme, which is a combination of the local RBF (radial ...
In order to approximate the solution of the one-dimensional Burgers' equation, an accurate algorithm...
Based on the finite difference scheme in time, the method of particular solutions using radial basis...
AbstractThis paper presents a numerical method for one-dimensional Burgers’ equation by the Hopf–Col...
In this paper, coupled nonlinear Burgers’ equations are solved through a variety of meshless methods...
Purpose - The purpose of this paper is to present an approach capable of solving Burgers' equation. ...
The main aim of this work is to consider a meshfree algorithm for solving Burgers’ equation with the...
This paper presents a computationally efficient and an accurate methodology in differential quadratu...
Abstract: In this paper we propose a meshfree technique for the numerical solution of the two dimens...
This paper presents a two-step meshless scheme using radial basis functions for the two-dimensional ...
We consider to represent an algorithm for time-fractional Burgers' equation utilizing the multiquadr...
An efficient technique is proposed to solve the one-dimensional Burgers' equation based on multiquad...
An efficient technique is proposed to solve the one-dimensional Burgers' equation based on multiquad...
The nonlinear Burgers’ equation is a simple form of Navier-Stocks equation. The nonlinear nature of ...
In the present paper, two effective numerical schemes depending on a second-order Strang splitting t...
AbstractIn this paper, a meshfree numerical scheme, which is a combination of the local RBF (radial ...
In order to approximate the solution of the one-dimensional Burgers' equation, an accurate algorithm...
Based on the finite difference scheme in time, the method of particular solutions using radial basis...
AbstractThis paper presents a numerical method for one-dimensional Burgers’ equation by the Hopf–Col...
In this paper, coupled nonlinear Burgers’ equations are solved through a variety of meshless methods...
Purpose - The purpose of this paper is to present an approach capable of solving Burgers' equation. ...
The main aim of this work is to consider a meshfree algorithm for solving Burgers’ equation with the...
This paper presents a computationally efficient and an accurate methodology in differential quadratu...
Abstract: In this paper we propose a meshfree technique for the numerical solution of the two dimens...
This paper presents a two-step meshless scheme using radial basis functions for the two-dimensional ...
We consider to represent an algorithm for time-fractional Burgers' equation utilizing the multiquadr...