搜索资源列表
3DFDTD_Fortran
- 用fortran语言编写的3D-FDTD程序-Using FORTRAN language 3D-FDTD program
dianyuan
- fdtd相关程序,可做基础学习,三维PML吸收边界-fdtd procedures do based learning, 3D PML absorbing boundary
FDTD_1D2D3Dapatch-antenna
- 该文件是我自编的FDTD 1D 2D 3D的入门MATLAB程序。然后包含一些贴片天线的代码。全是自编,点击可运行。-The files are the codes for FDTD coding including 1D 2D 3D using MATLAB. There are also codes for patch antenna modelling
GPR_final2
- 三维 电磁波 有限差分 本来用于计算三维GPR正演,还不是最终版,还在调试PML边界-3D FDTD
test2d3
- This a 3D FDTD simulation with pulse .It displays a "movie" of the signal Size of the FDTD space-This is a 3D FDTD simulation with pulse .It displays a "movie" of the signal Size of the FDTD space
fdtd3D
- 3维的FDTD算法用MATLAB编程的一个很好过程展示-3D FDTD algorithm
sfdtd
- Sfdtd is the squeleton of an end-user 3D-FDTD code and has been implemented for the comparison of various open boundary conditions in a traditional cubic grid. The code simulates an electric dipole in free space, which means that there is no material
FDTD_3D_Lowpass
- it is matlab code for low pass filter using 3d fdtd
FDTD_Perf3D.tar
- Analyze performance of 3D FDTD algorithm for large systems.
meep-1.2.1.tar
- meep是MIT开发的时域有限差分软件,能精确计算电磁波在各种介质中的传播。-Meep (or MEEP) is a free finite-difference time-domain (FDTD) simulation software package developed at MIT to model electromagnetic systems, along with our MPB eigenmode package. Its features include: Mee
LuoK_D3_PML
- 电磁场时域有限差分算法,三维完全匹配层程序-3D FDTD PML
fdtd3Dfinal
- simulation du champ électromagnétique avec la méthode FDTD en 3D
3dfdtd
- 该文件为一个3D电磁场的FDTD有限元仿真程序-The document as a 3D finite element FDTD electromagnetic field simulation program
FDTD_3D_sphere
- FDTD method is used on 3D scatterer under plane wave incident
hingman
- 自写曲率计算函数 ,二维声子晶体FDTD方法计算禁带宽度的例子,有CDF三角函数曲线/三维曲线图。- Since writing the curvature calculation function, Dimensional phononic crystals FDTD method calculation examples band gap, There CDF trigonometric curve/3D graphs.
MGL_RCS-
- A 3D FDTD based RCS Simulator
fdtda
- 3D FDTD matlab code for optical simulations
Mini_Project3
- Mini Project3: Simulate Finite Difference Time Domain (FDTD) for Maxwell’s equations in 1, 2, and 3D using MATLAB.