Marching cubes (MC) algorithm is a classical algorithm to extract iso-surface from regular volume data. At last, a medical images reconstruction system based on MC algorithm is developed.
移动立方体(MC)算法是基于规则体数据抽取等值面的经典算法,本文最后设计开发了一个基于MC算法的医学图像三维重建系统。
In the present work, in order to improve the success rate of radiotherapy we used the visualization toolkit (VTK) to achieve the surface and volume reconstruction of the nasopharyngeal tissues.
为了提高放射治疗的成功率,本文采用可视化工具包(VTK)分别实现了鼻咽部组织的表面重建和体重建。
Conclusions the method of volume viewing based on the voxels has great advantages over traditional surface reconstruction technology in visualizing the inner parts of objects.
结论基于体素的体视见方法在体视化客观事物内部方面具有传统面成像技术所无法比拟的优越性。
The 2d medical image can be transformed into the 3d image by surface reconstruction and volume rendering.
通过表面重建和体绘制,可将医学二维图象转化为三维图象。
Objective to explore a novel method of three-dimensional (3d) reconstruction based on vector field smoothing, for the purpose of 3d surface reconstruction of DICOM format volume data sets.
目的研究一种基于表面矢量场平滑的三维重建方法,对DICOM格式的体数据的三维结构进行表面重建。
Three-dimensional computer reconstruction as an emerging technology can not only reconstruct the organs by serial slices, but also calculate the length, volume, surface area of the organs.
计算机三维重建技术作为一门新兴的技术不但能通过连续组织切片进行重建,还可以对重建的三维结构进行测量获得器官组织长度、表面积、体积等精确参数。
Three-dimensional computer reconstruction as an emerging technology can not only reconstruct the organs by serial slices, but also calculate the length, volume, surface area of the organs.
计算机三维重建技术作为一门新兴的技术不但能通过连续组织切片进行重建,还可以对重建的三维结构进行测量获得器官组织长度、表面积、体积等精确参数。
应用推荐