通过想像正方形网格或六边形单元,可以方便地可视化数据结构(实践中,应用程序在多数情况下采用正方形网格)。
You can easily visualize the data structure by imagining a grid of square or hexagonal cells. (in practice, applications use square cells most of the time.)
您可以通过从一个模式或XML文档的树型表示中选择示例结果节点,并将这些节点拖放到一个返回网格中,从而可视化地构造一个 XML查询。
You can build an XML query visually by selecting sample resultant nodes from a tree representation of a schema or XML document and dragging the nodes onto a return grid.
此外,在此简化算法的基础上,还提出一个递进网格传输的框架,并实现了一个基于浏览器的可视化原型系统。
In addition, based on this simplification algorithm, a framework of progressive mesh transmission is also implemented as a browser-based visualized prototyping system.
进一步采取分区域选点法,用加权平均法生成了网格数字地形,实现了地形的可视化。
Grid digital terrain is produced with getting reference point by subarea and weighted averaging method, and is visualized.
此外,针对本文多重网格法方面的研究,在本文最后介绍了相关的软件开发及数据可视化方面的工作。
Besides, in subsequent sections, some research about the related software engineering and visualization of data is dealt with.
离散数据网格化是科学和工程研究领域中数据处理的核心技术,同时它也是科学可视化的前提。
The gridding of discrete data is the kernel technique of data processing methods in scientific and engineering research. Meanwhile, it is the base of scientific visualization.
本文研究了计算网格地形、波高等值线、速度场和波面的可视化。
In this paper, the method for drawing grid-based terrain, contour, and velocity field and wave surface are studied.
本文介绍了面向网格的可视化的研究内容、应用以及它的发展趋势和的研究方向。
In this paper, research contents, application, development trend and research direction of grid-enabLED visualization is introduced.
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.
对来自爆轰、爆炸等复杂物理过程模拟产生的二维非定常网格向量数据,可视化尤为困难。
Visualization of data resulting from implosion and explosion is more difficult due to its unsteady grid.
建立地质构造三维可视化模型的典型方法包括三维规则网格法、TIN表面法、四面体法以及综合法。
The typical 3d visually modeling methods of geological structure include the 3d regular network model, the TIN surface model, the tetrahedron elements model and the integration model.
模块适用于MAPGIS环境下地下水计算中各种网格剖分结点插值数据的自动生成与可视化。
The module can be suitable to the automatic formation and visibility of the interpolation data at each mesh cross section point in underground water calculation with MAPGIS environment.
地下水运动三维可视化的关键技术是对三维数据模型构造、网格数据的自动生成以及三维数据可视化集成。
The 3D-Visualization key techniques of groundwater movement are the three dimensions data model construction, mesh data automatic creation and three dimensions data visualization integration.
本文以研究三维地震数据体和三维地形网格的可视化算法为主要目的,讨论了三维地震地形数据体的交互可视化系统。
Aiming at studying algorithm of 3-d seismic data and 3-d grid data of topography, a interactive visualization system of 3-d seismic and topography data was discussed.
本文以教育部春晖计划——“基于网格的喀斯特地区数字博物馆的基础研究”为背景,结合遥感数字影像处理,研究三维真实感地形的建模和可视化方法。
As we know the build of third dimension scene needs a lots of real remote sensing images, theirs combination is one efficient way to high third dimension.
本文以教育部春晖计划——“基于网格的喀斯特地区数字博物馆的基础研究”为背景,结合遥感数字影像处理,研究三维真实感地形的建模和可视化方法。
As we know the build of third dimension scene needs a lots of real remote sensing images, theirs combination is one efficient way to high third dimension.
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