With the help of volume visualisation, it is not only easy to realize the "Virtual reality"of graphics rendering, but also capable of allowing visual insight into opague complex objects.
用立体可视化技术,不仅容易实现图形演示的虚拟真实性(灵境),而且可以将视野深入至复杂物体的内部世界。
In this second volume of computer Graphics for Artists the author, Andrew Paquette, guides the reader through the creation of realistic computer-generated backgrounds and characters.
在这第二卷的计算机图形艺术家的作者,安德鲁·帕克特,引导读者通过建立切合实际的计算机生成的背景和特点。
Volume rendering (VR) is a hot subject of medical images processing. It is an important application of computer graphics and image processing in biomedical engineering.
医学影像容积重建是目前医学图像处理领域的研究热点,是计算机图形学和图像处理技术在生物医学工程中的重要应用。
In this work, we implement the traditional ray-casting-based volume rendering algorithm on the programmable graphics processing unit (GPU).
将传统的光线投射体绘制算法在具有可编程管线的图形处理器(GPU)上重新实现。
Through the graphics processing of micro protrusion topography of wheel, the grain protrusion height, grain protrusion volume, grain rake angle and clearance angle were modeled.
通过砂轮微观出刃形貌的图形化处理,建立磨粒出刃高度、出刃体积、磨粒切削前角和后角等特征参数模式。
As a integration of graphics, data and sound, the multi-media technology can increase the volume of information greatly and provide some messages which cannot be gotten by computer-art before.
多媒体技术集图、文、声于一体,不但在信息的量上有了数量级的大幅度增加,而且还提供了以往计算机技术所不能提供的信息。
Then, the display unit and graphics engine of rotational motion swept-volume technique are particularly studied, and the modular method is presented.
接着,分别对旋转体扫描显示系统的显示单元和图像引擎进行了详细的研究,提出了模块化的设计方法。
Volume rendering (VR), maximum intensity projection (MIP) and multiplanar reformation (MPR) were used to analyze intracranial vessels on the graphics workstation by two radiologists.
由两位放射医师分别在工作站上行常规与减影的容积再现(VR),最大密度投影(MIP)和多平面重组(MPR)方法分析颅内血管。
Volume rendering (VR), maximum intensity projection (MIP) and multiplanar reformation (MPR) were used to analyze intracranial vessels on the graphics workstation by two radiologists.
由两位放射医师分别在工作站上行常规与减影的容积再现(VR),最大密度投影(MIP)和多平面重组(MPR)方法分析颅内血管。
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