In this study, meshfree methods with uniform nodal distribution and local-coordinates shape functions are investigated. The proposed meshfree method can be used with various shape functions and is tested on a test patch with a Laplace governing equation and both essential and Neumann boundary conditions. It is shown to reduce the computational time dependency on the number of nodes by 36%. This reduction of dependency is significant as it reduces the computational time by several orders for analysis of problems requiring very fine nodal distribution. The meshfree method with uniform nodal distribution and local coordinates shape function reduces and converges to the perfectly uniform nodal distribution with finer nodal distributions. The te...
In this article, we present a novel nodal integration scheme for meshfree Galerkin methods, which dr...
Conventional Galerkin meshfree methods employ Gauss quadrature in the integration of the weak form. ...
2noA novel algorithm is presented and employed for the fast generation of meshless node distribution...
Imposition of essential boundary conditions in meshfree methods is made difficult because the shape ...
AbstractIn order to improve computational efficiency of meshless methods based on Galerkin weak form...
To avoid the meshing problems with traditional engineering analysis methods many meshfree methods ha...
Meshfree methods are the topic of recent research in many areas of computational science and approxi...
Abstract: A comparison study of the efficiency and ac-curacy of a variety of meshless trial and test...
The automatic generation of meshes for the Finite Element method can be an expensive computational b...
This paper gives an overview over Meshfree Methods. Starting point is an extended and modified class...
Abstract:An efficient meshfree method based on a stabilized conforming nodal integration method is d...
Meshless/meshfree methods are cutting-edge numerical methods for numerical modeling, which unlike ot...
In the paper an improved element free Galerkin method is presented for heat conduction problems with...
Abstract: The truly meshless local Petrov-Galerkin (MLPG) method holds a great promise in solving bo...
Currently, the main tool for the simulation of forming processes is the finite element method. Unfor...
In this article, we present a novel nodal integration scheme for meshfree Galerkin methods, which dr...
Conventional Galerkin meshfree methods employ Gauss quadrature in the integration of the weak form. ...
2noA novel algorithm is presented and employed for the fast generation of meshless node distribution...
Imposition of essential boundary conditions in meshfree methods is made difficult because the shape ...
AbstractIn order to improve computational efficiency of meshless methods based on Galerkin weak form...
To avoid the meshing problems with traditional engineering analysis methods many meshfree methods ha...
Meshfree methods are the topic of recent research in many areas of computational science and approxi...
Abstract: A comparison study of the efficiency and ac-curacy of a variety of meshless trial and test...
The automatic generation of meshes for the Finite Element method can be an expensive computational b...
This paper gives an overview over Meshfree Methods. Starting point is an extended and modified class...
Abstract:An efficient meshfree method based on a stabilized conforming nodal integration method is d...
Meshless/meshfree methods are cutting-edge numerical methods for numerical modeling, which unlike ot...
In the paper an improved element free Galerkin method is presented for heat conduction problems with...
Abstract: The truly meshless local Petrov-Galerkin (MLPG) method holds a great promise in solving bo...
Currently, the main tool for the simulation of forming processes is the finite element method. Unfor...
In this article, we present a novel nodal integration scheme for meshfree Galerkin methods, which dr...
Conventional Galerkin meshfree methods employ Gauss quadrature in the integration of the weak form. ...
2noA novel algorithm is presented and employed for the fast generation of meshless node distribution...