at
所属分类:物理/力学计算
开发工具:Fortran
文件大小:35812KB
下载次数:4
上传日期:2018-03-26 19:46:04
上 传 者:
xubigboy
说明: 2018.01最新编译,matlab需要2016b以上。
将需要运行的exe文件拷贝到MATLAB文件夹下,如bellhop3d.exe
(The latest compilation(2018.01). Matlab should be 2016b or later. Copy the the "exe" file that you need to run under the "MATLAB" folder, such as "bellhop3d.exe" file.)
文件列表:
at (0, 2018-01-16)
at\.DS_Store (30724, 2018-01-16)
at\at_init_matlab.m (601, 2017-07-22)
at\Bellhop (0, 2018-03-26)
at\Bellhop\.DS_Store (6148, 2017-04-12)
at\Bellhop\angleMod.f90 (6730, 2017-10-29)
at\Bellhop\anglemod.mod (2400, 2018-03-17)
at\Bellhop\angleMod.o (10732, 2018-03-17)
at\Bellhop\ArrMod.f90 (16008, 2017-12-07)
at\Bellhop\arrmod.mod (1354, 2018-03-17)
at\Bellhop\ArrMod.o (16833, 2018-03-17)
at\Bellhop\bdry3DMod.f90 (24300, 2017-07-18)
at\Bellhop\bdry3dmod.mod (1871, 2018-03-17)
at\Bellhop\bdry3DMod.o (43225, 2018-03-17)
at\Bellhop\bdryMod.f90 (15217, 2017-04-17)
at\Bellhop\bdrymod.mod (1528, 2018-03-17)
at\Bellhop\bdryMod.o (27272, 2018-03-17)
at\Bellhop\bellhop.exe (292327, 2018-03-17)
at\Bellhop\bellhop.f90 (41925, 2017-11-07)
at\Bellhop\bellhop.o (40374, 2018-03-17)
at\Bellhop\Bellhop3D User Guide 2016_7_25.pdf (15933386, 2016-07-25)
at\Bellhop\bellhop3d.exe (378264, 2018-03-17)
at\Bellhop\bellhop3D.f90 (83853, 2017-12-07)
at\Bellhop\bellhop3D.o (83708, 2018-03-17)
at\Bellhop\bellhopMod.f90 (2251, 2016-11-21)
at\Bellhop\bellhopmod.mod (1936, 2018-03-17)
at\Bellhop\bellhopMod.o (929, 2018-03-17)
at\Bellhop\influence vector test.f90 (33022, 2016-03-11)
at\Bellhop\influence.f90 (38019, 2016-10-21)
at\Bellhop\influence.o (44233, 2018-03-17)
at\Bellhop\influence3D.f90 (32045, 2016-12-18)
at\Bellhop\influence3D.o (46133, 2018-03-17)
at\Bellhop\influence3DCerveny.f90 (5274, 2013-01-11)
at\Bellhop\influenceOld.f90 (38935, 2016-08-31)
at\Bellhop\Makefile (1773, 2017-08-07)
at\Bellhop\read.me (24497, 2017-12-07)
at\Bellhop\ReadEnvironment.f90 (22584, 2017-10-29)
at\Bellhop\ReadEnvironment.o (38519, 2018-03-17)
at\Bellhop\sspMod.f90 (31901, 2017-03-17)
at\Bellhop\sspmod.mod (2678, 2018-03-17)
... ...
Where I left it:
There's an odd discontinuity in the field at a certain range.
There are several factors that make this case difficult:
1) frequency is 5 Hz
2) receiver is at 100 m (within a third of a wavelength of the surface)
3) the radius of curvature of the cone gets vanishingly small
It's hard to understand the cause of the discontinuity because it's hard to visualize the 3D field and understand which rays contribute where.
Have been looking at vertical and horizontal slices.
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