variable grid

简明释义

变距栅网

英英释义

例句

1.The website's layout is based on a variable grid that adjusts to screen sizes.

该网站的布局基于一个可变网格，可以根据屏幕尺寸进行调整。

2.Using a variable grid in data visualization allows for better representation of complex datasets.

在数据可视化中使用可变网格可以更好地表示复杂的数据集。

3.The new software allows users to customize the layout using a variable grid.

新软件允许用户使用可变网格自定义布局。

4.In graphic design, a variable grid can help create more dynamic compositions.

在图形设计中，可变网格可以帮助创建更具动态的构图。

5.Architects often utilize a variable grid to adapt their designs to different site conditions.

建筑师经常使用可变网格来适应不同的场地条件。

作文

In the realm of modern technology and data analysis, the term variable grid refers to a flexible framework that allows for the adjustment and manipulation of data points across various dimensions. This concept is especially prevalent in fields such as meteorology, computer graphics, and geographical information systems (GIS). By utilizing a variable grid, researchers and analysts can achieve more accurate representations of complex phenomena by adjusting the density and distribution of data points according to the specific requirements of their study.For instance, in meteorology, weather models often rely on a variable grid system to improve the accuracy of forecasts. Traditional weather models might use a fixed grid, where data points are evenly spaced across a geographic area. However, this approach can lead to inaccuracies in regions with rapidly changing weather patterns or topographical variations. By employing a variable grid, meteorologists can increase the resolution of data points in areas of interest, such as storm systems, while using a coarser grid in less critical regions. This targeted approach not only enhances the precision of weather predictions but also optimizes computational resources.Similarly, in the field of computer graphics, a variable grid can be utilized to render images more efficiently. When creating complex 3D environments, artists may employ a variable grid to allocate more detail to areas that are closer to the viewer, while reducing the detail in the background. This technique allows for smoother performance and faster rendering times without sacrificing visual quality. The ability to manipulate the grid dynamically based on the viewer's perspective exemplifies the versatility of the variable grid concept.Moreover, the use of a variable grid in GIS enables urban planners and environmental scientists to analyze spatial data more effectively. For example, when assessing the impact of a proposed development project, planners can adjust the grid to focus on specific neighborhoods or ecological zones that may be affected. This adaptability facilitates a more nuanced understanding of spatial relationships and potential consequences, leading to better-informed decision-making.The significance of a variable grid extends beyond technical applications; it embodies a broader philosophy of adaptability and precision in data handling. As we continue to generate and collect vast amounts of data, the need for flexible frameworks becomes increasingly important. A variable grid allows for tailored analysis, ensuring that we can derive meaningful insights from complex datasets without being constrained by rigid structures.In conclusion, the concept of a variable grid plays a crucial role in various fields by providing a dynamic and adaptable framework for data representation and analysis. Its applications in meteorology, computer graphics, and GIS illustrate its versatility and importance in enhancing accuracy and efficiency. As technology continues to evolve, the ability to implement variable grids will undoubtedly become an essential skill for professionals seeking to navigate the complexities of modern data-driven environments. Embracing the principles behind a variable grid not only fosters innovation but also empowers us to make more informed decisions based on the rich tapestry of information available to us today.

在现代科技和数据分析的领域中，术语variable grid指的是一个灵活的框架，允许在各个维度上调整和操作数据点。这个概念在气象学、计算机图形学和地理信息系统（GIS）等领域尤为普遍。通过利用variable grid，研究人员和分析师能够根据其研究的具体需求，实现对复杂现象更准确的表示。例如，在气象学中，天气模型通常依赖于variable grid系统来提高预测的准确性。传统的天气模型可能使用固定网格，其中数据点在地理区域内均匀分布。然而，这种方法可能导致在天气变化迅速或地形变化大的地区出现不准确的情况。通过采用variable grid，气象学家可以在关注区域（如风暴系统）中增加数据点的分辨率，而在不太关键的区域使用较粗的网格。这种有针对性的方法不仅提高了天气预测的精度，还优化了计算资源。同样，在计算机图形学领域，可以利用variable grid来更有效地渲染图像。在创建复杂的3D环境时，艺术家可能会采用variable grid，在离观众较近的区域分配更多细节，而在背景中减少细节。这种技术允许在不牺牲视觉质量的情况下实现更流畅的性能和更快的渲染时间。根据观众的视角动态操控网格的能力体现了variable grid概念的多样性。此外，在GIS中使用variable grid使城市规划者和环境科学家能够更有效地分析空间数据。例如，在评估拟议开发项目的影响时，规划者可以调整网格，以关注可能受到影响的特定社区或生态区域。这种适应性促进了对空间关系和潜在后果的更细致理解，从而导致更明智的决策。variable grid的重要性超越了技术应用；它体现了一种在数据处理中的适应性和精确性的更广泛哲学。随着我们继续生成和收集大量数据，对灵活框架的需求变得越来越重要。variable grid允许进行量身定制的分析，确保我们能够从复杂的数据集中提取有意义的洞察，而不受限于僵化的结构。总之，variable grid的概念在各个领域发挥着至关重要的作用，通过提供一个动态和可适应的数据表示和分析框架。它在气象学、计算机图形学和GIS中的应用说明了它的多功能性和在提高准确性和效率方面的重要性。随着技术的不断发展，实施variable grid的能力无疑将成为专业人士在现代数据驱动环境中寻求驾驭复杂性的基本技能。拥抱variable grid背后的原则不仅促进了创新，也使我们能够根据当今可用的信息丰富的拼图做出更明智的决策。