本文研究了基于图像的建筑物三维建模技术,主要分为:建筑物场景的全景图拼接与基于单幅图像的建筑物三维几何重建。
This paper has studied three dimensional modeling technology for architecture based on image, including panorama splicing and geometry reconstruction based on single image.
本文通过一系列的处理重建三维服装的几何模型。
In this paper, the geometrical surface of 3d garment is reconstructed through a series of treatments.
越来越多的应用如几何重建、碰撞检测、混合现实、手势识别等,都依赖于对三维场景准确且快速的分析。
An increasing number of applications depend on accurate and fast 3d scene analysis, such as geometry reconstruction, collision prevention, mixed reality, and gesture recognition.
由于双平面X射线造影系统只能提供两幅有限的投影数据,冠状动脉树的三维重建在匹配、优化几何变换矩阵等方面存在困难。
The purpose of this study is to provide a 3D reconstruction of the skeleton of the coronary artery tree from two X-ray angiograms acquired on a biplane angiographic system.
基于相位映射的三维传感技术对几何形状和拓扑结构复杂或表面梯度很大的物体进行绝对相位测量及相位重建仍然是一个困难的问题。
Absolute phase measurement and phase reconstruction to object surfaces with complex geometric and topologic shapes still remain difficult for phase mapping based on three-dimensional (3d) sensing.
本文以肱骨横截面CT图像为解剖学基础,提取骨端面的几何形状,进行三维重建,建立肱骨的三维有限元模型。
Based on ct picture, the geometrical dimensions of humerus were obtained. A three-dimensional finite element model was established on the basis of three-dimensional reconstruction.
基于断层图象的几何重建是三维数据场可视化技术的主要研究内容,重建物体的三维几何模型也是分析、仿真、决策的前提。
Geometry reconstruction from slice-images is a main topic of visualization of 3d volume data. Reconstruction of model is the premise of analysis, emulation and decision-making.
前言:目的:通过三维激光扫描仪对膝关节几何形态进行三维重建,建立膝关节计算机三维模型,探讨此方法对膝关节相关研究的指导意义。
Objective: Using 3d Laser Scanner for the establish of geometry shape of knee, we create its 3d computer model, and investigate this models guiding significances for correlated study.
前言:目的:通过三维激光扫描仪对膝关节几何形态进行三维重建,建立膝关节计算机三维模型,探讨此方法对膝关节相关研究的指导意义。
Objective: Using 3d Laser Scanner for the establish of geometry shape of knee, we create its 3d computer model, and investigate this models guiding significances for correlated study.
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