3D grid

简明释义

三维网格;

英英释义

例句

1.The architect used a 3D grid to visualize the building's structure before construction.

建筑师使用3D网格在施工前可视化建筑结构。

2.Scientists often represent molecular structures using a 3D grid model.

科学家们经常使用3D网格模型表示分子结构。

3.The video game features a dynamic 3D grid that changes as players navigate through the world.

这款视频游戏具有动态的3D网格，随着玩家在世界中导航而变化。

4.In computer graphics, a 3D grid helps in rendering complex scenes efficiently.

在计算机图形学中，3D网格有助于高效渲染复杂场景。

5.The simulation software displays data on a 3D grid for better analysis of spatial relationships.

模拟软件在3D网格上显示数据，以便更好地分析空间关系。

作文

In the realm of computer graphics and modeling, the concept of a 3D grid plays a crucial role in how we visualize and manipulate three-dimensional spaces. A 3D grid is essentially a three-dimensional framework composed of intersecting lines that create a lattice-like structure. This grid allows for the organization of points in space, which can be used to represent various objects and environments. Understanding the 3D grid is fundamental for anyone interested in fields such as architecture, game design, or scientific visualization.The primary purpose of a 3D grid is to provide a reference system that simplifies the representation of complex shapes and forms. By dividing space into smaller, manageable units, designers and engineers can accurately place points, lines, and surfaces within a defined area. Each point on a 3D grid can be identified using three coordinates (x, y, z), which correspond to its position along the three axes of the grid. This systematic approach not only enhances precision but also facilitates easier manipulation of objects in virtual environments.For instance, in architectural design, a 3D grid allows architects to create scaled models of buildings and structures. By plotting out the dimensions of a building within a 3D grid, architects can visualize how different elements will fit together and interact with one another. This process is essential for ensuring that the final design is both aesthetically pleasing and structurally sound. Furthermore, the use of a 3D grid can help identify potential issues early in the design phase, saving time and resources during construction.In the field of video game development, the application of a 3D grid is equally significant. Game developers use this grid to create immersive environments where players can navigate freely. The 3D grid serves as a foundation for placing characters, obstacles, and interactive elements within the game world. By utilizing a 3D grid, developers can ensure that all objects are positioned correctly and respond appropriately to player actions. This level of organization is vital for creating a seamless gaming experience.Moreover, scientific visualization often relies on 3D grids to interpret complex data sets. Researchers in fields such as meteorology or medical imaging utilize 3D grids to represent data in a way that is easy to understand. For example, a 3D grid can be employed to visualize temperature variations in the atmosphere or to map the internal structures of the human body. By translating abstract data into a visual format, scientists can gain insights that might otherwise remain hidden.In conclusion, the concept of a 3D grid is integral to various disciplines, providing a structured way to represent and manipulate three-dimensional spaces. Whether in architecture, game design, or scientific research, the 3D grid serves as a foundational tool that enhances creativity, precision, and understanding. As technology continues to advance, the importance of mastering the 3D grid will only grow, making it an essential skill for future innovators and creators. Understanding how to effectively utilize a 3D grid can open up new possibilities and pave the way for groundbreaking developments in numerous fields.

在计算机图形和建模的领域中，3D grid（三维网格）这一概念在我们如何可视化和操作三维空间方面起着至关重要的作用。3D grid本质上是一个由交叉线条组成的三维框架，形成一种格子状结构。这个网格允许我们在空间中组织点，可以用来表示各种物体和环境。理解3D grid对于任何对建筑、游戏设计或科学可视化感兴趣的人来说都是基础。3D grid的主要目的是提供一个参考系统，简化复杂形状和形式的表示。通过将空间划分为更小、更易管理的单元，设计师和工程师可以在定义的区域内准确地放置点、线和表面。3D grid上的每个点都可以使用三个坐标（x、y、z）进行标识，分别对应于它在网格三个轴上的位置。这种系统化的方法不仅增强了精确性，还方便了在虚拟环境中对物体的操作。例如，在建筑设计中，3D grid使建筑师能够创建建筑和结构的比例模型。通过在3D grid内绘制建筑的尺寸，建筑师可以可视化不同元素如何组合在一起并相互作用。这个过程对于确保最终设计既美观又结构合理至关重要。此外，使用3D grid可以帮助在设计阶段及早识别潜在问题，从而节省施工过程中的时间和资源。在视频游戏开发领域，3D grid的应用同样重要。游戏开发者利用这个网格创建玩家可以自由导航的沉浸式环境。3D grid作为放置角色、障碍物和互动元素的基础。在游戏世界中通过利用3D grid，开发者可以确保所有物体正确定位并对玩家的动作做出适当反应。这种组织程度对于创造无缝的游戏体验至关重要。此外，科学可视化通常依赖于3D grids来解释复杂的数据集。气象学或医学成像等领域的研究人员利用3D grids以易于理解的方式表示数据。例如，3D grid可以用于可视化大气中的温度变化或映射人体的内部结构。通过将抽象数据转换为可视化格式，科学家可以获得可能会被隐藏的洞察。总之，3D grid的概念在各个学科中都是不可或缺的，提供了一种结构化的方法来表示和操作三维空间。无论是在建筑、游戏设计还是科学研究中，3D grid作为增强创造力、精确性和理解力的基础工具发挥着重要作用。随着技术的不断进步，掌握3D grid的重要性只会增加，使其成为未来创新者和创造者必备的技能。有效利用3D grid可以开启新的可能性，为多个领域的突破性发展铺平道路。