在综述三维重建算法的基础上提出了一种体素赋值重建算法。
This paper proposed the algorithm of the 3-d reconstruction techniques.
它是传统的用已标定单视图的基于模型的三维重建算法的推广。
And it is the generalization of the traditional 3d reconstruction algorithm based on model from calibrated single view.
提出了一种新的三维重建算法,该算法可以恢复目标物体完整的三维结构。
A novel 3d reconstruction algorithm with missing data is presented, by which the complete structure of the target can be recovered.
在获取相机参数之后,研究了一种采用多幅图像基于标记点的三维重建算法。
A 3d reconstruction algorithm based on marker points using multiple images is studied after the camera parameters are obtained.
利用三维重建算法和分段控制策略计算目标物距离,融合激光传感器信息获得目标物的精确距离。
Calculating the distance between the camera and target by the 3d reconstruction algorithm and sub-control strategy, and raise its veracity by laser information fusion.
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。
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.
采用高精度光栅生成的算法,经过大量的实验证明是非常有效的,完全能应用在实际的三维重建和测量中。
The high accuracy raster generating algorithm adopted is very effective which can be approved by many experiments and can be used in the real three-dimension reconstruction application.
文中介绍了CT图像三维重建的原理和算法,并给出在牙种植导航系统中的应用实例。
This paper introduces the theory and the arithmetic of 3d reconstruction from ct slices, and its application in the dental implantation navigation system.
提出基于网格的有序匹配算法和基于平移测量模式下的三维重建方法。
And it proposes a sequenced matching method on gird and a method for 3d reconstruction based on parallel measuring pattern.
目前基于点云的三维重建,大都是通过一些算法构造出三维表面网格模型。
Now based on the three-dimensional reconstruction of point cloud, it is to make three-dimensional surface grid model through some algorithm.
该算法为解决计算机视觉的测量、定位、三维重建等问题,提供一种全新的思路。
The algorithm to solve the measurement of computer vision, positioning, three-dimensional reconstruction, with a brand new idea.
提到的算法是有效和可靠的一对弱纹理和标准件,分别给出精确的3 - D坐标与实际自然图像的三维重建。
The algorithm mentioned is valid and reliable by 3d reconstruction on a pair of actual natural images with weak texture and the standard piece with given precise 3-d coordinates, respectively.
针对由序列断层测量轮廓的三维重建,提出了基于物体结构特征的封闭轮廓集分割算法。
A new algorithm, which can extract closed contour set according to the structure of a part from series of measured layers, was presented.
在CT脑血管医学图像断层间三维重建图形配准中,提出了基于图像内部各个血管轮廓间相对位置信息的优化新算法。
A novel registration algorithm is presented for ct cerebrovascular medical image 3-d reconstruction based on the mutual location information of individual contours of the image set.
该文综述了当前医学图像三维重建中基于光线投射算法的几种改进算法,对各种改进算法的优缺点进行了比较。
This paper summarizes some improved algorithm of Ray-casting algorithm apply to current Three-dimensional reconstruction of medical images and compare their merits and demerits.
然后,我们将六点算法推广到未标定单视图的三维重建。
The algorithm needs at least six points to get the solution.
无标记点的运动捕捉是新兴的技术,它将捕获的图像进行分割并分析,然后用多种约束算法进行三维重建。
Markerless motion capture is a novel technique. It segments and analyzes the captured images and USES several constraint algorithms to reconstruct.
提出了一种新的定标方法和投影模板检测算法,并构造完成了有源三维重建实验系统。
First, a new calibration method and a detecting algorithm of projected grid pattern are proposed. Then an active 3D shape retrieval system is established.
在对城市景观主要建模对象进行分类的基础上,建立了三维空间数据结构,实现了地形和地物模型三维重建的系列算法。
Based on the classification of the primary modeling objects in the city scene, we separately rebuild the model of the terrain and objects according to the 3d spatial data structure.
基于同一物体的两幅图像,给出了其特征匹配和三维重建的算法,并通过实验数据分析了此算法的有效性。
In this paper, the algorithm of points matching and reconstruction across images is presented. Experimental results on synthetic and real data demonstrate the effectiveness of the method.
通过比较分析几种常用的插值算法,采用基于灰度的线性插值方法对断层图像进行插值,有效地提高了三维重建的质量。
After comparing and analyzing several commonly used interpolation algorithms, we use the linear gray-based slice-image interpolation method to improve the quantity of 3d visualization.
并可以利用三维重建中常用的RBF插值算法作为参考,改善了修复的效果。
With the help of RBF interpolation, we can obtain better restoring results.
并可以利用三维重建中常用的RBF插值算法作为参考,改善了修复的效果。
With the help of RBF interpolation, we can obtain better restoring results.
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