Title :
Extended Meshfree Point Collocation Method for Electromagnetic Problems With Layered Singularity
Author :
Yoon, Young-Cheol ; Kim, Do Wan
Author_Institution :
Dept. of Civil Eng., Myongji Coll., Seoul, South Korea
Abstract :
A novel meshfree point collocation method for solving the electromagnetic potential problems with layered singularity is presented. The approximation based on the moving least squares technique is enriched by Heaviside step function, scissor function and wedge function. It effectively models discontinuities in electromagnetic potential and its gradient fields. Direct discretization of the partial differential equations yields the system of equations so that the computational speed is very fast compared to the Galerkin formulation. Solving the system provides the nodal solutions and jump strengths on the singular layer at the same time. Numerical results show that the developed method is highly efficient and reliable in solving electrostatic problems with charge layer or insulating layer.
Keywords :
Galerkin method; electromagnetic field theory; electrostatics; functions; inhomogeneous media; least squares approximations; partial differential equations; charge layer; electromagnetic gradient fields; electromagnetic potential problems; extended meshfree point collocation method; heaviside step function; insulating layer; layered singularity; meshfree element-free Galerkin method; moving least squares technique; partial differential equations; scissor function; wedge function; Civil engineering; Educational institutions; Electromagnetic fields; Electrostatics; Geometry; Insulation; Least squares approximation; Mathematics; Partial differential equations; Polynomials; Discontinuities; electromagnetic potential; layered singularity; meshfree; point collocation;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2010.2046148
