1) Visualization of Regular Datasets
规则体可视化
2) Spatial rule visual expression
空间规则可视化
3) volume visualization
体可视化
1.
This article researches the clipping plane technology during volume visualization in underwater acoustic energy fields to study the influence to naval battles,and brings forward two methods to create clipping plane according to different requests of tactics.
为了深入研究海洋水声环境对海军作战的影响,在水下声场体可视化的基础上对能量场进行3维剖分技术研究。
2.
The clipping plane technology was researched based on OpenGL Shading language (GLSL) during volume visualization in underwater Acoustic Energy Fields, and two methods were brought forward to create clipping planes according to different requests of tactics.
基于OpenGLShadingLanguage(GLSL)技术,在水下声场体可视化的基础上对能量场进行三维剖分技术研究,并根据不同的战术目的,研究了两种不同的切平面剖分绘制方法。
4) the integration of rules
规则一体化
5) Visible human
可视化人体
1.
Three dimensional reconstruction of the heart of the first Chinese digitized visible human;
首例中国可视化人体心脏三维重建及临床意义
2.
Thin sectional anatomy of the heart of the first Chinese digitized visible human;
首例中国可视化人体心脏薄层断层解剖学研究
3.
Creation of a Three-dimensional Solid and Finite Element Biomechanical Model of Temporomandibular Joint by Use of the Images of Chinese Visible Human;
利用中国可视化人体图像建立颞下颌关节的三维实体和有限元模型
6) human visualization
人体可视化
补充资料:地理信息可视化
地理信息可视化( geographic information visualization)
地理信息可视化是将地理信息数据转换为人们容易理解的图形图像方式。随着计算机、图形、图像技术的飞速发展,人们现在已经可以用丰富的色彩、动画技术、三维立体显示及仿真等手段,形象地表现各种地形特征。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条