第五章对三维人体建模技术进行了阐述。
Fifth chapter described three-dimensional human body modeling technology.
提出了一种利用多摄像机来重建三维人体运动的新方法。
A new approach to reconstruct 3d motion of body in multiple-camera environments is presented.
提出一种由三维人体扫描数据建立人体动态模型的新方法。
This paper presented a novel method for building dynamic model of real human body from 3d scanned data.
结论:该测量方法是一个较为完善的三维人体运动临床和科研分析方法。
CONCLUSION: This present measurement is nearly a flawless method for the scientific research and clinical analysis in 3d body motion.
第三章详细介绍了采用超声波方法进行三维人体坐标测量的硬件电路设计。
Third chapter introduced in detail about USES the ultrasonic wave method to carry on the three dimensional human body coordinates survey the hardware circuit design.
对一种三维人体测量转台进行了研究,详细介绍了其机械和控制部分设计。
This paper discusses a turning table for 3-d measuring, presents the design of its mechanism and control system.
具有真实感的三维人体造型和运动控制技术是计算机图形领域中的一项热门课题。
The modeling of realistic 3d virtual human and the motion control technology are hot research projects in the field of computer graphics.
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.
提出并研究了基于CCD(光电藕合器件)与红外传感技术的三维人体尺寸自动测量系统。
The auto measuring system of 3d human body based on CCD (charge coupled devices) and infrared sensor technology are presented.
特别是对于初学者有趣的交通将能够通过摄像机在三维人体彩绘,与各种型号的创造的解释。
Especially interesting for beginners will be able to traffic through the camera in Body Paint 3d, with an explanation of the creation of various models.
第二章介绍了三维人体坐标测量的原理以及几种经常采用的方法,并对各种方法进行了比较。
Second chapter introduced the principle and several adopted methods of three dimensional human body coordinates measurement. Followed by the comparison of the differences among the methods.
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.
采用不共面的非线性定标模型和考虑运动不确定性的三维重建方法,能恢复逼真的三维人体骨架模型。
A non-coplanar nonlinear calibration model and a reconstruction approach taken uncertainty into consideration are applied to restore 3d human skeleton model.
然后实现虚拟内窥结果的可视化,研制出基于微机的虚拟内窥系统和对三维人体影像数据虚拟内窥的结果。
Then a virtual endoscope system based on PC that USES the method were given and a few virtual endoscope images of 3d human body image data were also presented.
经验丰富的专业人员,也可以发现一些新的东西,以及对变形的三维人体模型的工作过程中的痛苦的时刻之一。
Experienced professionals, too, can discover something new, as well as one of the moments of the working process of texturing models in 3d Body Pain.
本文针对这些不足,对服装三维人体建模方法进行了研究,提出了一种基于特征的服装三维人体参数化建模方法。
According to these drawbacks, the research presented in this thesis proposes a novel real-time approach of 3d human parameterized modeling based on feature.
为了从运动序列中提取不同类型的运动片段进行人体动画创作,提出一种三维人体运动数据可视化与交互式分割技术。
In order to get primitive actions for animation production, this paper proposes a visualization and interactive segmentation method for 3d human motion sequences.
在研究当前三维人体数据获取方法和各种三维人体建模方法的基础上,总结三维服装CAD系统中人体模型的建模方法。
On the base of studying the method of getting 3d mannequin data and all kind of 3d human modeling, this paper has summarized the method of mannequin modeling in 3d garment CAD.
针对这些问题,我们使用单个CCD照像机,拍摄人体正面和侧面的数字图像,进行三维立体标定,得到三维人体不同位置点的坐标。
To these problem, we use single CCD camera, take the digital image of front and side body, calibrate 3d data, and acquire the different point's coordinates of 3d body.
建立三维人体模型以及分析人体肢体可及空间,对于人机工程设计、人体关节运动控制和人体模型的碰撞检测研究都具有重要的意义。
An 3d human body model and analysing of its reach-space are important to ergonomic design, motion control of human joint and collision detection of human model in virtual environment.
具体的说,就是利用专用的三维人体造型软件自带的人体模型,将其导出为3ds文件,再根据3ds文件的存储格式,利用计算机程序将文件中的有用的人体曲面的顶点信息提取出来。
In details, that was to read out vertex information of human body from a 3ds-formatted file that was extracted from the design model by the application of professional 3d human body modeling software.
毫米波长扫描仪发射无线电波到人体表面,产生一个三维图像。
Millimeter wave scanners beam radio waves over the body to create a three-dimensional image.
应用三维摄影和三维运动录像分析系统,从人体对外输出机械能角度对掷铅球技术进行了研究。
Three dimensional cinematography and sport video analytical system were applied to study the shot put technique in view of body outputting mechanical energy.
目的:构建正常人体髋关节的三维有限元模型,作为该部位进一步有限元分析的基础。
Objective: To establish a three-dimensional finite element model of normal human hip as a foundation of finite element analysis in this area.
目的:为完成中国数字化人体及三维重建技术向教学和临床过渡奠定基础。
Objective: to complete the Chinese digital human body and three dimensional reconstruction and to make a base for teaching and clinic use.
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.
目的建立人工髋关节置换术后的三维有限元模型,分析研究人工股骨柄、骨水泥和人体股骨的应力分布。
Objective a three dimensional finite element model after total hip replacement was established to analytically study the stress distribution of the artificial stem, bone cement and human femur.
方法:根据人体下颌骨的螺旋CT扫描图像,利用三维重建、图像处理和网格划分技术,建立人体下颌骨的三维有限元模型。
Methods: a Finite Element Model of human mandible is developed from ct scan images by the technologies of three-dimensional reconstruction, image processing and meshing.
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.
根据人体下颌骨的螺旋CT扫描图像,利用三维重建、图像处理和网格划分技术,建立了人体下颌骨的三维有限元模型。
A finite element model of human mandible is developed from ct scan images by the technologies of three-dimensional reconstruction, image processing and meshing.
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