搜索资源列表
MOM
- method of moment to solve Current distribution of Dipole Antenna MOM方法解决天线电流分布问题
CircularCapacitance
- 在matlab下,运用矩量法计算圆环形细导线电容及电荷分布,并分析电容随导线半径和圆环半径的变化-In matlab, compution of the annular thin wire capacitance and charge distributionwith MOM, and analysis of capacitor with the conductor radius and the radius of the circle
MoM
- simulation method of moment using matlab
Hallen3
- 用MOM求解HALLEN S INTEGRAL EQUATION ,得出电流分布-Using MOM to solve HALLEN' S INTEGRAL EQUATION, draw current distribution
MOM
- Method of Moments Lecture Notes
juliang
- MOM 巨量法 初学巨量法编程很好的参考。-MOM for a newer who want to study MOM
zuoye
- 矩量法求半波振子天线的阻抗,与理论值偏差较小,比较精确-mom to calculate the z of the antenna
V_Antenna
- 用MOM计算V型天线的电流分布、输入阻抗及辐射方向图。其中L=0.3λ,L/a=2000,激励用δ-gap模型。-calculate the current distribution, input impedance and radiate pattern of V-antenna with MOM. L=0.3λ,L/a=2000, δ-gap source
mom
- Method of Moments, TMz case
MOM
- 矩量法(电场结合磁场积分方程) 矩量法(电场结合磁场积分方程)-Method of moments (combined electric field integral equation)
scat
- To calculate the scattering by metal cylinder using MOM
MoManntenacurrent
- 距量法解基于任意激励和入射场的线天线电流分布-MOM to solve the current of any line wire antenna
mom
- 矩量法仿真电磁辐射和散射的源代码(c++) -Moment Method Simulation of electromagnetic radiation and scattering of the source code (c++)
11
- Write a MOM Code for 2D Dielectric and PEC Objects (TM Case) -The scattering by two-dimensional (2D) PEC objects and dielectric objects illuminated by TM waves is one of the simplest EM problems. Write a MOM code for such a scattering problem. The ba
ACA_09.03.01
- 用于稠密矩阵压缩的ACA算法,可以用于矩量法和有限元中。-an ACA code to compress the dense matrix in MOM and FEM.
MoM
- 3-D 目标MoM源代码 可以求解球体,旋转体等目标的电磁散射问题-MoM
MoM
- describle the use of MoM
MOM
- 通过mom法基本计算电磁场分布。比如表面电流等。-MoM C C This is a MATLAB based program using C C I. POCKLINGTON S INTEGRAL EQUATION (8-24) C II. HALLEN S INTEGRAL EQUATION (8-27)
2-D-metal-scattering-based-on-MOM
- 基于矩量法的二维金属体散射(内含matlab程序)-2-D metal scattering based on MOM(including matlab code)
mom
- 基于矩量法(MoM)的对称阵子天线的分析,并给出了天线电特性。(Based on the method of moment (MoM) analysis of the dipole antenna, and gives the electrical characteristics of the antenna.)