它实现了保留位势数据物理特性的散乱位势数据网格化。
It realizes gridding the scattered potential data which keep the physical character of potential data.
作者在本文中提出一种数据网格化的快速算法局部搜索算法。
This paper deals with a fast Surface Data Gridding Arithmetic called LSGA (Local Search Gridding Arithmetic).
主要讨论了如何利用改进的离散数据网格化方法快速实现离散地形数据预处理。
This thesis mainly discussed how to make use of the improved arithmetic of discrete data gridding to quickly realize discrete data pretreatment.
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.
这一次传递的是IncreaseSalaryMapAgent,已使用要向网格中的工资数据执行的百分比增长对其进行了初始化。
This time, you pass the IncreaseSalaryMapAgent, which has been initialised with the percentage increase to execute on the salary data in the grid.
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.)
另外还有一些新的功能,用于将数据区块化存储到网格中,使用不同级别的冗余,以及在内存中处理超大型的数据集。
The value-add is the ability to chunk up data and store them in a grid, with varying degrees of redundancy, which allows for processing of very large data sets entirely in memory.
当我们初始化这个网格小部件(dojox . grid . DataGrid)时,数据存储和结构共同定义了网格。
When we instantiate the grid widget (dojox.grid.DataGrid), the store and structure come together to define the grid.
网格细分是一种离散造型方法,可以从数字化仪等设备直接获得数据。
Subdivision is one of the discrete modeling methods that can achieve data from the devices such as digitizer.
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.
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.
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.
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.
三维数字化技术概括地说可以分为数据采集、表面网格重建和表面信息获取三个过程。
Generally three-dimensional digital technology can be divided into data acquisition, surface reconstruction and surface information acquisition process.
可用于处理不规则区域大量地球物理、地球化学及其它网格化数据,如计算区域异常、局部异常,也可用于异常的圆滑处理、计算趋势面等。
It can be applied to large irregular-spacing geophysical, geochemical and other data for the computation of regional anomalies, local anomalies and trend surfaces and for the smoothing etc.
并在网格化数据的基础上进行反演,求得了不同深度层面的磁场分布及磁性结构。
On the basis of grid data, inversion was conducted and magnetic field distribution and magnetic structure on bedding of different depths were obtained.
本论文主要围绕消除由于地球物理航测数据的不均匀性导致的网格化后走样的方法展开研究。
This paper is mainly doing a study on the method of removing the aliasing of airborne magnetic data caused by interpolating and gridding.
本文采用首次提出的快速样条函数插值方法对二维离散数据进行曲面插值,进而作网格化计算。
In this paper, the author USES fast spline function curved surface interpolation method which is derived by the author to accomplish two dimensional discrete data gridding calculation.
空间数据网格是网格环境下面向空间数据共享与协同,构造一体化空间数据网格映象的技术体系。
Spatial data grid is a technology system which aims at spatial data sharing and cooperating and integrates spatial data into a single image of spatial data grid in the grid environment.
如果提高网格单元的分辨率和行政单元数据的空间尺度,网格化的结果就会达到更加令人满意的效果。
With the spatial resolution of gridding cells improved and the spatial scale of administration cell increased, this method of data gridding will have a more satisfied effect.
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.
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.
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.
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