自由立体显示技术可以再现丢失的深度信息。
Autostereoscopic display technology can redisplay the lost depth information.
相应的真三维立体显示技术的研究亦有很大的进展。
The research of corresponding volumetric display technique also has much progress.
真三维立体显示技术是近年来新兴的三维显示技术。
True 3d volumetric display technique is a completely new technique.
本文中介绍了一种如何基于现有微机平台的立体显示技术。
This paper introduces a new stereo display method on general PC.
自由立体显示技术是指不需佩戴立体眼镜等附属设备的3维立体显示技术。
Autostereoscopic display is a kind of three-dimensional technique which need not wear 3D goggles or other equipments.
自由立体显示技术是当今立体显示的主流技术,文中阐述了该技术的研发动态。
The states of the art for two mainstream technologies of auto-stereoscopic 3D display are presented.
为真三维立体显示技术的进一步研究提供了必要的理论基础和重要的技术方法。
All of these provide the essential theoretical foundation and important technique methods for the research of true 3d volumetric display technique.
介绍了两种结构的差异,并简单介绍作者在立体显示技术方面的最新研究成果。
The difference between the two structures is described, and author′s current research result is introduced in brief.
你知道当目前最夯的3d立体显示技术遇上了博奕游戏,将迸发出何种灿烂火花?
Do you know what will happen when the current best 3d stereo display technology meets the gambling?
三维立体显示技术是虚拟现实的关键技术之一,同时也是虚拟现实系统最基本的要求。
Stereo display is one of the key technologies of Virtual Reality( VR ), and also the lowest requirement of VR system.
三星LCD业务部门的总裁Wonkie Chang表示:“最近,立体显示技术成为了业内关注的焦点。
"Recently, 3D displays have captured the industry spotlight," said Wonkie Chang, president of the LCD business at Samsung.
综合测井、地质、地震资料,利用相干体技术,面块切片技术,三维立体显示技术进行地震资料构造精细刻画。
Comprehend the information of logging, geology, seismic, use the technology of Coherence, lump slice, stereoscopic display to make the fine structure characterization of seismic data.
真立体显示技术是虚拟现实中的关键技术之一,而如何组织和存储其中大量的彩色立体图对,则显得尤为重要。
Stereo display is one of the key technology adopted by VR (Virture Reality), but it is very important how to organize and store a large number of the colour stereo image pairs.
应用水平切片和三维立体显示技术对牛轭湖沉积砂岩体进行追踪和描述,利用储层厚度、振幅和频率分析方法研究其含油性。
Sedimentary sandstone body of oxbow istracked and described using horizontal slice and 3D stereo display techniques, and its lithology is studied by analyzingreservoir depth, amplitude and frequency.
作者通过对当前几种计算机立体显示技术的对比,并根据目前实验室已有的条件,决定选用“分像法”作为本课题立体显示的技术。
The paper also compares some current stereo display technologies, and decides to use the stereo glasses as the method to display field according to the laboratory conditions.
结果螺旋CT三维重建技术能够立体地,详尽和精确地显示颌面部的三维骨折解剖结构和相邻关系。
Result It can accurately display the jaw and face fracture anatomise and the relation with other parts with the spiral CT three dimension reconstruction.
本文简要介绍了数字样机技术的特点和意义,给出了一个三通道、立体显示的数字样机平台的硬件组成。
The design characteristic and effect of digital mock-up are introduced in this paper, and hardware makeup of a digital mock-up system which get three channel and stereo display is illuminated.
彩色多普勒与三维超声成像技术的结合更易于显示肿瘤血管“抱球征”、“提篮征”、“周围血管绕行征”的立体构型。
Color Doppler combining with 3d ultrasound imaging technique could display the stereoscopic configuration of "holding ball", "hand-basket", "surrounding blood vessel bypass".
立体照相采用线条光栅还原立体图像,在三维显示技术中具有独特的作用。
The stereo-photographing technology, which USES line grating and reverts to stereo image, plays a special role in 3-dim display.
结果3d -CDE技术对膀胱癌内部及周边血流显示逼真清晰,富有立体感,明显优于二维超声彩色多普勒能量图(2 D - CDE)。
Results 3d CDE could show the blood streams inside and around the tumors clearly, lively and stereoscopically. It was obviously better than two dimensional ultrasound color Doppler energy (2d CDE).
中间视合成是实现立体交互式显示的关键技术,即在观察者改变观看位置时,可以通过系统合成的虚拟视点获得环视的效果。
This paper proposes an intermediate view synthesis algorithm based on image mosaic to create the virtual view image by exploiting view interpolation and morphings.
研究了基于自动立体镜显示器的真三维显示技术。
The true 3d display technology based on Autostereoscopic display is researched.
构造合适的运动技术动作人体模型和选择适当的三维计算机编程技术,是实观运动生物力学运动技术动作三维计算机立体显示的关键。
How to select proper human body models and programming languages is the key for realize 3d computer displaying on sports technique in sports biomechanics.
构造合适的运动技术动作人体模型和选择适当的三维计算机编程技术,是实观运动生物力学运动技术动作三维计算机立体显示的关键。
So it directly serves practice sports works. How to select proper human body models and programming languages is the key for realize 3D computer displaying on sports technique in sports biomechanics.
构造合适的运动技术动作人体模型和选择适当的三维计算机编程技术,是实观运动生物力学运动技术动作三维计算机立体显示的关键。
So it directly serves practice sports works. How to select proper human body models and programming languages is the key for realize 3D computer displaying on sports technique in sports biomechanics.
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