Reconstruction methods were multiple planar reconstruction(MPR), maximum intensity projection(MIP) and volume rendering technique(VRT).
重建应用多平面重建(MPR),最大密度投影(M IP)及容积显示技术(VRT)。
On the basis of conical projection imaging principle, this paper elucidates the spatial relationship in the planar imaging of human skull and face.
本文从锥体投影成像原理出发,阐述人的脸面形成平面影像时的空间关系。
The projection method of control points for calculating the minimum distance between a point and a planar NURBS curve is proposed.
提出了一种利用控制顶点投影法计算点到平面NURBS曲线最小距离的算法。
Taking the specially designed planar target with the monocular vision system, the projection line of the reference points is built.
以专门设计的平面与单眼视力系统的目标,参考点的投影线内置。
Strategies of cubic projection and rotation transformation were put forward in this paper in order to transform the complicated 3D issues into 2D planar issues.
采用最佳拟合直线方法,计算产品模型投影轮廓多边形的长轴方位,并据此计算旋转变换所需转动角度。
To evaluate multi-planar reconstruction MPR, maximum intensity projection MIP and volume rendering technique VR in diagnosis of complicated maxillofacial fractures.
多种后处理技术,即多平面重建、最大密度投影及容积再现在颌面部复杂骨折中的应用价值。
To evaluate multi-planar reconstruction MPR, maximum intensity projection MIP and volume rendering technique VR in diagnosis of complicated maxillofacial fractures.
多种后处理技术,即多平面重建、最大密度投影及容积再现在颌面部复杂骨折中的应用价值。
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