再现离轴全息图可清楚地看到粒子场的三维图象。
By reproducing of the off-axis hologram the three-dimensional image of the particle field can be clearly seen.
研究电子束CT心肌梗死部位及形态的三维图象重建。
To reconstruct the 3-dimensioanal image of heart and the region of myocardial ischemia from 2-dimensioanal tomogram of electron beam CT (EBCT).
彩色声图可显示三维图象,即时间、频率及强度关系图。
The color sonagram shows image in three dimensions of time, frequency and intensity.
通过表面重建和体绘制,可将医学二维图象转化为三维图象。
The 2d medical image can be transformed into the 3d image by surface reconstruction and volume rendering.
应用三维图象技术来令人体的自然能量发生共识,来提高运动能力。
"Use holographic technology" to "resonate with and respond to the natural energy field of the body", and increase sporting ability.
最后,以一次地震为例,给出了孔径随震中距、方位角、频率变化的三维图象。
At last, taking one earthquake as an example, this paper gives three dimension patterns of radius of the field with epicenter distance and azimuth as well as frequency.
这样我们能够直接观察高应力区的三维图象,即高应力区的表面形状及其深度。
In this way, the 3d image of high stress zone, both the shape on surface and the depth of the zone, can be observed directly.
立体图象切割作为三维图象显示的一种有用的方式,可以提供剖面信息,便于诊断。
As one of the useful methods of 3d image displaying, solid image cut can provide information of cut plane, bring convenience to diagnosis.
立体图象切割作为三维图象显示的一种有用的方式,可以提供剖面信息,便于诊断。
We present an algorithm to compute the contour after cutting and interpolation of cut plane. Result shows that it can get ideal final image.
为了高质量准确地对物体多视角三维图象进行快速对齐复位,提出了一种将多个视角三维自然曲面数据精确对齐复位于同一坐标系中的新型迭代方法。
A novel iterative approach is proposed for precise aligning multiple 3D images captured from difference views of a natural object surface in one reference coordinate system.
根据图形消隐的基本原理,概述了当前在三维图形处理中最主要的物体空间消隐算法和图象空间消隐算法,对各种算法的优缺点和适用范围作了总结和比较。
By the principle of the removing the hidden lines and surfaces, the advantages, disadvantages and the range of application of algorithms for removing the hidden lines and surfaces are analyzed.
根据图形消隐的基本原理,概述了当前在三维图形处理中最主要的物体空间消隐算法和图象空间消隐算法,对各种算法的优缺点和适用范围作了总结和比较。
By the principle of the removing the hidden lines and surfaces, the advantages, disadvantages and the range of application of algorithms for removing the hidden lines and surfaces are analyzed.
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