医学三维数据场可视化是当前科学计算可视化应用的重点。
The visualization of medical 3-D data is a main application of Scientific Visualization.
本文提出了一种基于三维数据场可视化来实现虚拟加工的方法。
In this paper we put forward a Virtual Process based on Visualization of 3d Spatial Data Sets Method.
建立了生成智能虚拟控件的环境与平台的系统模型、椭球体三维数据场可视化模型。
It builds up the model of the environment and platform where the intelligent virtual controls are formed and the ellipsoid tridimentional data field visualization model.
本文是将三维数据场可视化技术应用到石油勘探开发过程中的地质建模和数值模拟之中。
The article applies 3d data sets visualization technique to the geological modeling and numerical value simulation in course of petroleum exploration and exploitation.
科学计算可视化中数据场可视化的一个关键问题,是如何运用不同的颜色来表达和区分不同的数据源。
A key problem of the visualization of data field in VISC (visualization in Scientific Computing) is how to use different colors to express and distinguish variable data.
基于断层图象的几何重建是三维数据场可视化技术的主要研究内容,重建物体的三维几何模型也是分析、仿真、决策的前提。
Geometry reconstruction from slice-images is a main topic of visualization of 3d volume data. Reconstruction of model is the premise of analysis, emulation and decision-making.
因此,本文通过对钢坯温度场中大容量数据进行可视化的初步研究,有重要的工程应用价值。
Therefore, the study of transforming volume data in the temperature field to visual image is of great value in engineering.
通过数据可视化的方法检出分岔现象可以直接检视大洋流场中的不稳定结构,揭示系统的失稳过程。
Detecting bifurcations by data visualization method can probe into the structural instability in ocean flow directly, and thus helps reveal unsteady processes in the system.
非定常三维向量场可视化的难点不仅在于数据表现本身,还在于大体积数据的管理和组织。
The difficulty of unsteady three dimensional vector field data visualization stems from both data representation and management of large volume data.
气动力数值模拟系统是CFD流场解算技术、网格生成技术、数据可视化技术和网络技术相结合的产物。
CFD numerical simulation system is a combined technology of CFD flow solving, grid generation, data visualization and networking.
非规则数据场的体绘制是可视化的一个热点和难点。
Volume rendering of irregular data field is a hot but knotty field in VISC recently.
在分析可视化系统的功能和特性的基础上,设计并实现了一种三维医学数据场可扩展式可视化系统。
Based on the analyzing the functions and characteristics of visualization system, an extendable visualization system for 3d medical data field is presented and realized.
针对庞大复杂的海洋数据流场,利用三维标量场的拓扑分析方法,对海洋目标水团进行提取,达到特征可视化的目的。
This paper introduces a topological simplification of 3d scalar fields for extracting water mass, and realizes the feature-based visualization.
体绘制技术常用于3维体数据场的可视化,其虽然可以生成高质量的投影图像,但通常不能绘制由体数据与点、线、面图形组成的混合场景。
Volume rendering is often used for 3d volumetric datasets visualization. It can generate high quality images, but can not render volumes and polygons combined scenes.
体绘制技术常用于3维体数据场的可视化,其虽然可以生成高质量的投影图像,但通常不能绘制由体数据与点、线、面图形组成的混合场景。
Volume rendering is often used for 3d volumetric datasets visualization. It can generate high quality images, but can not render volumes and polygons combined scenes.
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