目的:建立人体整体骨骼系统的高精度三维模型,为解剖教学、生理模拟等应用提供三维数据集。
Objective: to establish three-dimensional modeling of human skeleton system for the applications of anatomy teaching, physiological simulation, etc.
一个对病人谁需要一个面部假体表面的面部三维数据集,获得使用感应系统,以及面部三维图像重建。
A three-dimensional dataset of the facial surface of a patient who needed a facial prosthesis was obtained using a sensing system, and the three-dimensional image of the face was reconstructed.
笔者总结了从三维散乱数据点集重建物体曲面的技术,重点介绍了其中的一些典型方法。
This paper summarizes the technology of surface reconstruction from three-dimensional scattered data points. Some typical methods are introduced in detail.
改进传统窗口调节函数,结合模糊集理论和三维区域生长技术,提出并实现一种采用CT体数据场的人体器官提取新方法。
Based on the adjustment function, combining to fuzzy sets theory and 3d region growing technology, an approach for organ extraction from the ct human volumetric data was developed.
将三维离散数据点集拟合为空间参数曲面,在此参数曲面上规划五轴激光加工的等距轨迹。
A parameterized spatial surface has been constructed from3 dimensional scattered data, and upon it the5 axis trace for laser processing can be laid out.
而图像的配准、图像分割、体数据集的构建、三维空间插值则是医学图像三维可视化实现过程中的关键技术环节。
The image registering, image segmentation, pixel data set construction and 3d special interpolation are the key technologies in medical images 3d reconstruction.
针对三维激光扫描仪获得的彩色人头数据集压缩问题,提出了基于区域分割的顶点合并网格简化算法。
To simplify the 3D color head dataset acquired from 3D color laser scanner, a new vertex merging mesh simplification algorithm based on region segmentation is presented.
提出了基于最小能量约束的水平集重构方法,用以解决由三维数据点云自动重构复杂拓扑结构物体模型的问题。
A constrained energy minimization based on level set method for 3d reconstruction of object with complex topology is proposed.
多元数据集遭受着表征的问题,因为三维以上超越了绘图程序的能力。
Multivariate data sets suffer from the problem of representation, since a dimensionality above 3 is beyond the capability of plotting programs.
目的建立可供机自动识别与三维重建的高精度人体原位肝脏和游离肝脏可视化数据集。
Objective To establish more detailed digitized dataset of original and free liver which were automatic recognized and 3D reconstructed by computer easily.
目的建立可供机自动识别与三维重建的高精度人体原位肝脏和游离肝脏可视化数据集。
Objective To establish more detailed digitized dataset of original and free liver which were automatic recognized and 3D reconstructed by computer easily.
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