目的研究三维成像的新方法,为无创伤地再现人体器官内部结构及病灶提供一个新的途径。
To study the new method of three - dimensional reconstruction, present a new way for non - destructively display the inner structure and position the diseases of human body.
提出了一种使用校验块的新方法,用来校验基于结构光条纹投射的三维人体测量仪的系统误差。
A novel method, which USES verifying block to verify the system error of 3d body measurement apparatus based on structured light fringe projecting, is mentioned in this paper.
应用线结构光激光三维扫描仪对特定站姿的人体进行扫描,获得完整三维人体点云。
Using a light-stripe 3D laser scanning system to scan the desired pose of body, human's three-dimensional coordinates are obtained without loss.
医学图像三维重建为人体结构提供了真实、直观的反映,便于医学人员对病灶的观察及手术的进行。
Three dimensions reconstruction of CT image gives a intuitionistic image of body. It is convenient to observation and operation.
面绘制算法通过生成面片来拟合物体表面,绘制结果只能展现人体组织表面信息,而无法表达数据场中深层次人体组织的三维结构;
Surface rendering algorithms use micro-surfaces to fit the objects' surface, the results of which just show the outer surfaces of tissues, can not display the inner structures in deep levels;
目的:利用三维重建的方法显示人体筋膜聚集区分布,与经络图对比研究经络形态结构。
Objective: to display the disposition of human fascia concentration by 3d reconstruction, and to explore the morphosis of Jin-Muo by comparing 3-d models with images of Jin-Muo.
提出了一种基于结构光方法的三维全身人体扫描仪的设计方案。
In the design of a 3d whole body scanner based on structured light, laser stripes were projected horizontally onto the body.
提出了一种基于结构光方法的三维全身人体扫描仪的设计方案。
In the design of a 3d whole body scanner based on structured light, laser stripes were projected horizontally onto the body.
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