科学可视化

为了更好的满足我中心科学可视化方面的需求，我们以中心现有的曙光PC集群为平台，开发了自己的大屏幕立体拼接显示系统。

In order to provide a better display platform for our research of scientific visualization , we develop our own stereo tiled display system based on our Dawning PC cluster .

本文结合图像分割、序列图像处理及科学可视化领域取得的进展，研究了基于三维CT图像序列的涡轮叶片缺陷检测技术，并开发了相应的软件原型系统。

According to the progress made in the area of image segmentation , image sequence processing and scientific visualization , the thesis investigates turbine blade defects detection technologies based on 3D ICT image sequences and the corresponding software prototype system is developed .

该方法不仅可用于演示网络环境下的可视化装配，也适合于其它领域基于Web的科学可视化。

This method can not only be used to show the visible assembly in environment of network , but also fit for the science visibility based on web in other fields .

目前已在科学可视化、飞行模拟、医学、遥感与遥控、CAD／CAM、教育、娱乐等领域获得广泛的应用。

It 's applied to science visualization , flight simulation , medicine , remote sensing and remote control , CAD / CAM , education , entertainment , etc.

基于测量数据的CAD造型是CAD/CAM中的重要组成部分，在工业界、广告娱乐业和科学可视化等领域中得到极为广泛的应用。

CAD modeling based on measured data is an important part of CAD / CAM . It has been applied in many fields such as manufacture , advertisement and science visualization .

区域填充问题在CAD、科学可视化、图形图象处理等领域均有着广泛和深入的应用，研究高效的区域填充算法，是计算机图形学的重要问题之一。

Area filling algorithm has a wide application in the field of CAD , visualization of science and graphical processing . It is one of the important problems to study the efficient area filling algorithm in computer graphics .

第二章，介绍分布式可视化系统的体系结构、任务划分及底层通信，提出RVS系统的科学可视化环境。

In Chapter 2 , we introduce system 's architecture structure , server versus client functionality and client-server communication , and propose scientific computing visualization environment of RVS .

并行与分布式科学可视化研究与实现

Research and Implementation of Scientific Visualization of Parallel and Distribution

基于图像仿真的对地遥感过程科学可视化研究

Study on Scientific Visualization of Earth Remote Sensing Based on Imagery Simulation

科学可视化技术的出现使得三维数据三维解释成为可能。

The advent of scientific visualization technology makes possible 3-D seismic data interpretation .

科学可视化的核心是三维数据场的可视化，气象数据是一种典型的多时序、多变量的三维空间数据场。

The kernel of Scientific Visualization is the Visualization of three-Dimension data field .

活体细胞三维图像科学可视化方法的研究

Studies on the method for scientific visualization of three-dimensional images of living cells

科学可视化、计算机动画和虚拟现实的核心技术都是三维真实感图形。

The core technology of the visualization , computer animation and virtual reality is three-dimensional graphics .

文章介绍了科学可视化的发展概况，以及发展科学可视化的意义。

This paper presents the general situation of the development in the Visualization technology and its significance .

如何有效的提取流场的物理特征是解决流场科学可视化的关键。

How to effectively extract the physical charateristics is the key to the scientific visualization of flow field .

今天，大量的计算机应用问题是运用超级计算机以及图形系统和科学可视化来解决的。

Vast majority of computer application problems today are solved using supercomputers , graphic systems and scientific visualization .

因此，对三维表面模型进行剖切操作也就成为科学可视化研究中的关键技术之一。

So the methods of cutting the 3D model have been one of the key technology in visualization research .

并行与分布式图形处理已成为超级计算环境下科学可视化的基础。

Parallel and distributed processing for computer graphics have be-come the foundation of scientific visualization in the supercomputing enviroment .

我们也是科学可视化，其实实现浸入式的虚拟现实，改动并不大。

We also are science visible , realize the virtual reality of immersion actually , alter and not quite .

科学可视化将数据和图形图像有机地结合起来，用图形图像直观地展示数据。

Scientific visualization combines the data with graphics to use the graphics and image to show the data intuitively .

如果你想知道科学可视化的天才是什么样子的，看看埃莉诺·卢茨吧。

If you want to know what a talent for scientific visualizations looks like , check out Eleanor Lutz .

应用范围包括视景仿真、虚拟现实、科学可视化、临场感娱乐及其他实时三维图形应用。

This system is for visual simulation , virtual reality , scientific visualization , location-based entertainment and other3D graphics applications .

作为科学可视化的一个主要领域，体绘制是一种直接由三维数据场产生屏幕上二维图像的技术。

As one of the major fields of scientific visualization , Volume Rendering is that generates two-dimensional image directly from three-dimensional data .

随着计算机技术、数值仿真技术、科学可视化技术和虚拟现实技术的不断发展，虚拟仿真已经成为科学研究的重要手段。

As the development of computer , numerical simulation , visualization and virtual reality technology , virtual simulation has become an important means of science research .

本课题的研究分为三个步骤：科学可视化、系统总体设计的动态模拟和虚拟现实。

The research of this item can be separated into three steps : science visualizing , the dynamical simulation of the collectivity design of system and VR .

科学可视化运用可视化技术在三维数据场上显示科学计算结果，包括逻辑布局的仿真模拟、计算结果数据的后处理和交互处理。

Science visualizing is to display result on 3-D data field using visualizing technology . It consist of simulation of logic layout , the after-treat and alternation-treat of result .

潮流数值模拟的科学可视化与虚拟现实是海岸海洋科学研究重要的现代技术手段之一。

The technology of scientific visualization and Virtual Reality ( VR ) for tidal current numerical simulation is one of the most important modern methods utilized in coastal ocean science .

将科学可视化技术应用于三维地震数据场，则产生了三维地震数据可视化技术，它主要包括面可视化与直接体绘制两种技术。

Applying this technology to 3-D seismic sets announces the birth of 3-D seismic data visualization technology , which includes mainly two methods of surface visualization and direct volume rendering .

用有限单元法数值仿真涡流信号，并采用现代科学可视化技术中常用的彩色云图法来显示有限元计算结果。

Finite element method was applied to eddy current signal simulation , and the new method called color contour image applied broadly in modern science visualization was used to show the calculating results .

它广泛应用于CAD/CAM等许多技术中，如曲面造型，曲面显示、有限元分析，基本几何计算、科学可视化等领域。

It is of a great interest for many CAD / CAM applications such as surface modeling , surface rendering , finite element analysis , fundamental geometric calculations , science visualizations and so on .