Hybrid Finite Element Boundary Integral Method
نویسنده
چکیده
MKT0000528 › With recent improvements in the efficiency of integral equation solutions it is now possible to combine the integral equation procedure with the finite element method (FEM) in a hybrid Finite Element Boundary Integral approach (FEBI) [1]. In electromagnetics the FEM is a general purpose technique that solves for volumetric electric fields and can be used to accurately characterize microwave components, antennas and signal integrity issues [2, 3]. For antenna or scattering problems, the air region surrounding the model must be included and terminated with an absorbing boundary condition (ABC). The integral equation (IE) approach, which solves directly for currents on object surfaces is not as general as the FEM, but is often more efficient for large open problems since it does not require the surrounding air volume. By combining the two approaches in a FEBI technique HFSS users can accurately and efficiently simulate very complex, large open problems. This new technique will be available in the 13.0 release of HFSSTM.
منابع مشابه
A Fast Time-Domain Finite Element–Boundary Integral Method for Electromagnetic Analysis
A time-domain, finite element–boundary integral (FE–BI) method is presented for analyzing electromagnetic (EM) scattering from two-dimensional (2-D) inhomogeneous objects. The scheme’s finite-element component expands transverse fields in terms of a pair of orthogonal vector basis functions and is coupled to its boundary integral component in such a way that the resultant finite element mass ma...
متن کاملComparing FEM-BEM and FEM-DBCI for open-boundary electrostatic field problems
This paper compares the hybrid FEM-BEM and FEM-DBCI methods for the solution of openboundary electrostatic field problems. Both methods couple a differential equation for the interior problem with an integral equation for the exterior one. The comparison shows that FEM-BEM is more accurate than FEM-DBCI but requires more computing time. PACS. 41.20.Cv Electrostatics; Poisson and Laplace equatio...
متن کاملHybrid Finite Element and Volume Integral Methods for Scattering Using Parametric Geometry
In this paper we address several topics relating to the development and implementation of volume integral and hybrid finite element methods for electromagnetic modeling. Comparisons with the finite elementboundary integral method are given in terms of accuracy and computing resources. We also discuss preconditioning, parallelization of the multilevel fast multipole method and propose higher-ord...
متن کاملTransient bioheat simulation of the laser-tissue interaction in human skin using hybrid finite element formulation.
This paper presents a hybrid finite element model for describing quantitatively the thermal responses of skin tissue under laser irradiation. The model is based on the boundary integral-based finite element method and the Pennes bioheat transfer equation. In this study, temporal discretization of the bioheat system is first performed and leads to the well-known modified Helmholtz equation. A ra...
متن کاملHybrid boundary element and finite difference method for solving the nonlinear Poisson-Boltzmann equation
A hybrid approach for solving the nonlinear Poisson-Boltzmann equation (PBE) is presented. Under this approach, the electrostatic potential is separated into (1) a linear component satisfying the linear PBE and solved using a fast boundary element method and (2) a correction term accounting for nonlinear effects and optionally, the presence of an ion-exclusion layer. Because the correction pote...
متن کامل