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Combination of Rao-Wilton-Glisson and Asymptotic Phase Basis Functions to Solve the Electric and Magnetic Field Integral Equations

机译：Rao-Wilton-Glisson与渐近相位基函数相结合求解电磁场积分方程

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Using the method of moments to solve the electric and magnetic field integral equations for the currents on a PEC surface requires a large number of unknowns to capture the current's rapid spatial variation across the surface. Rao-Wilton-Glisson (RWG) vector basis functions 1 have been successfully used for the past twenty years 1, 2, 3,.... Unfortunately, the required number of unknowns is on the order of 100 per square wavelength making electrically large problems impractical. For large smooth objects, the rapid spatial variation in the current is due to phase variations rather than magnitude variations. Thus, using asymptotic phase (AP) basis functions can drastically reduce the number of unknowns 3 for large, smooth metallic bodies. The A' basis flinction incorporates the anticipated phase, hence represents a more efficient basis function for a large class of problems. However, using RWG basis functions for monostatic calculations is more efficient since the matrix entries need not be recomputed for each new incidence angle, as is the case for an AP expansion. One can combine the methods; selecting RWG or AP basis functions for a given geometry based on an element's location within the geometry. This allows the relaxation of mesh density in smooth flat regions not near the discontinuities resulting in a significant reduction of unknowns. This research shows that combining functions is highly efficient and the effectiveness of this method depends on the geometry of application.

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作者
Gulick, J. R.;
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年度 2001
页码 1-74
总页数 74
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Magnetic fields; Electric fields; Density; Magnetic properties; Theses; Geometry; Electric current; Method of moments; Integral equations; Angle of incidence;

机译：磁场;电场;密度;磁性;论文;几何;电流;矩量法;积分方程;入射角;

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专利

1. ALTERNATIVE IMPLEMENTATION OF COMBINED-FIELD INTEGRAL EQUATION USING RAO-WILTON-GLISSON BASIS FUNCTIONS FOR CONDUCTING SCATTERERS [J] . Eng Leong Tan, Jing Ning Microwave and optical technology letters . 2006,第4期

机译：导散点的Rao-Wilton-Glisson基函数对混合场积分方程的交替实现
2. Transient electromagnetic scattering from dielectric objects using the electric field Integral equation with Laguerre polynomials as temporal basis functions [J] . Baek Ho Jung, Sarkar T.K., Young-Seek Chung, IEEE Transactions on Antennas and Propagation . 2004,第9期

机译：使用Laguerre多项式作为时间基函数的电场积分方程从电介质物体中进行瞬态电磁散射
3. Stable Discretization of the Electric-Magnetic Field Integral Equation With the Taylor-Orthogonal Basis Functions [J] . Ubeda E., Tamayo J.M., Rius J.M., Antennas and Propagation, IEEE Transactions on . 2013,第3期

机译：具有泰勒正交基函数的电磁场积分方程的稳定离散化
4. Discretization of the electric-magnetic field integral equation with the divergence Taylor-Orthogonal basis functions free from the magnetic-field and the electric-field low-frequency breakdowns [C] . Ubeda Eduard, Tamayo Jose M., Rius Juan M. Antennas and Propagation (EUCAP), 2012 6th European Conference on . 2012

机译：具有散度泰勒-正交基函数的电磁场积分方程的离散化，不受磁场和电场低频击穿的影响
5. A combination of Rao-Wilton-Glisson and asymptotic phase basis functions to solve the electric and magnetic field integral equations. [D] . Gulick, John Robert. 2001

机译：Rao-Wilton-Glisson和渐近相位基函数的组合来求解电场和磁场积分方程。
6. An asymptotic solution of the integral equation for the second moment function in geometric processes [O] . Mustafa Hilmi Pekalp, Halil Aydoğdu -1

机译：几何过程中第二矩函数积分方程的渐近解
7. Transient Electromagnetic Scattering From Dielectric Objects Using the Electric Field Integral Equation With Laguerre Polynomials as Temporal Basis Functions [O] . Baek Ho Jung, Tapan K. Sarkar, Young-seek Chung, 2008

机译：使用Laguerre多项式作为时间基函数的电场积分方程从电介质物体进行瞬态电磁散射

Combination of Rao-Wilton-Glisson and Asymptotic Phase Basis Functions to Solve the Electric and Magnetic Field Integral Equations

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