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- 矩卷积反投影法实现CT图象重建,从投影重建三维物体的图像,就是重建一个个横断面。这样三堆图像的重建就归结为二维图象的重建-Moment convolution back projection method of CT image reconstruction, reconstruction of three-dimensional objects from projection images, is a reconstruction of a cross-section. This three
KenDelaunay2D
- 1.高质量的笛氏三角网格化,为重建三维图形提供有力的帮助. 2.附件有原码和调用方法,Delaunay三角网格化已封装成一个类,用户只需要传入点坐标标就可以得到最优的三角形 3.这是我工作中用到的一个小算法,希望对你的工作有所帮助-KenDelaunay
twoview_reconstruction
- 利用2张不同角度的图像,重建出三维图像 two view 3D reconstruction-Two different angles of the image, and reconstruct the three-dimensional image two view 3D reconstruction
fdk
- 医学图像三维重建算法中比较简单使用的fdk算程序,该程序使用S-L滤波函数-The use of relatively simple FDK program for calculation of 3D reconstruction of medical images, the program uses the S-L filter function
delaunay-algorithm
- 高质量的笛氏三角网格化,为重建三维图形提供有力的帮助. 附件有原码和调用方法,Delaunay三角网格化已封装成一个类,用户只需要传入点坐标标就可以得到最优的三角形。-High-quality flute s triangle grid, three-dimensional graphics for the reconstruction to provide effective help. Attachment with the original code and call the method
3D
- 三维重建是立体视觉的重要步骤 此代码实现了此过程
katsevich-recreat
- 三维图像重建,采用多种滤波方法,实现三维图像重建,该算法效率比较高。目前已经应用到实际工程。-3-dim picture recreat,use filter method and project method to realise the recreating of 3 dim picture.it is a very effective method ,applied in the project.so I share it with you .
liangdiantiqu_centroid
- 相机内外参数标定完以后,而已利用该程序对图像中物体进行三维坐标的重建。-After internal and external camera calibration parameters End, just use the program to reconstruct three-dimensional objects in an image coordinates.
3D-Reconstruction
- Matlab语言编写,从二维图像标记重构3维行人姿态,动态处理。非常适合在此基础上二次开发。资料包含全部代码和相关理论论文。已测试,非常完美实现。(Matlab language is used to reconstruct 3 dimensional pedestrian pose from two-dimensional image tags. Very suitable for two development on this basis. Data contains all the cod
SANBAN
- 自己编写的散斑生成算法,对于三维重建有很大的帮助(the generation algorithm of the speckle image, which is helpful for the three dimensional reconstruction)
sfm-bundler(python)
- 就是用sfm方法把用相机拍摄的图像进行重建三维模型(The SFM method is used to reconstruct the three-dimensional model of the image taken by the camera)