spatial coordinates

简明释义

空间坐标

英英释义

例句

1.To create a 3D model, you need to define the spatial coordinates of each point.

要创建3D模型，您需要定义每个点的空间坐标。

2.The virtual reality system uses spatial coordinates to create an immersive experience.

虚拟现实系统使用空间坐标来创建沉浸式体验。

3.Scientists rely on spatial coordinates to track the movements of animals in the wild.

科学家依赖空间坐标来追踪野生动物的移动。

4.In robotics, spatial coordinates are crucial for navigating through an environment.

在机器人技术中，空间坐标对于在环境中导航至关重要。

5.The map application uses spatial coordinates to accurately pinpoint your location.

地图应用使用空间坐标来准确定位您的位置。

作文

In the realm of mathematics and physics, understanding the concept of spatial coordinates is essential for various applications, including navigation, computer graphics, and geographical information systems. Spatial coordinates refer to a set of values that define a position in a multi-dimensional space. Typically, these coordinates are represented as (x, y, z) in three-dimensional space, where 'x' describes the position along the horizontal axis, 'y' indicates the vertical position, and 'z' represents depth. This framework allows us to pinpoint exact locations in our physical world and is crucial for tasks that require precise measurements.For instance, when we consider the field of navigation, spatial coordinates play a vital role in determining the location of ships, airplanes, and even satellites. Using a system like GPS, which utilizes spatial coordinates, we can accurately track our position on Earth, ensuring safe travel and efficient routing. The technology behind GPS relies on a network of satellites that transmit their own spatial coordinates to receivers on the ground, allowing users to calculate their exact location based on the signals received from multiple satellites.In addition to navigation, spatial coordinates are fundamental in the field of computer graphics. When creating a three-dimensional model or animation, artists and developers use spatial coordinates to define where each point in the model exists in relation to others. This allows for the creation of realistic environments and characters in video games and films. By manipulating spatial coordinates, designers can control movement, perspective, and interaction within a virtual space, making it an indispensable tool in modern entertainment.Moreover, geographic information systems (GIS) rely heavily on spatial coordinates to analyze and visualize spatial data. For example, urban planners use GIS to assess land use, infrastructure development, and environmental impact by mapping out specific areas using spatial coordinates. This enables them to make informed decisions about resource allocation and urban development, ultimately leading to more sustainable cities.Understanding spatial coordinates also has implications in scientific research. In fields such as astronomy, physicists and astronomers utilize spatial coordinates to map the positions of celestial bodies. By knowing the spatial coordinates of stars and planets, scientists can study their movements, interactions, and even predict celestial events like eclipses or meteor showers. This knowledge enhances our understanding of the universe and our place within it.In conclusion, spatial coordinates are not just abstract concepts; they are integral to numerous fields of study and practical applications. Whether in navigation, computer graphics, GIS, or scientific research, the ability to understand and utilize spatial coordinates is crucial for innovation and progress. As technology continues to advance, the importance of mastering this concept will only grow, opening new avenues for exploration and discovery in our ever-changing world.

在数学和物理的领域中，理解空间坐标的概念对导航、计算机图形学和地理信息系统等各种应用至关重要。空间坐标指的是一组定义多维空间中位置的值。通常，这些坐标在三维空间中表示为（x，y，z），其中'x'描述了沿水平轴的位置，'y'表示垂直位置，而'z'代表深度。这个框架使我们能够准确定位现实世界中的确切位置，并且对于需要精确测量的任务至关重要。例如，当我们考虑导航领域时，空间坐标在确定船只、飞机甚至卫星的位置方面发挥着重要作用。使用像GPS这样的系统，它利用空间坐标，我们可以准确跟踪我们在地球上的位置，确保安全旅行和高效路线规划。GPS背后的技术依赖于一网络卫星，这些卫星向地面接收器发送它们自己的空间坐标，使用户能够根据从多个卫星接收到的信号计算出他们的确切位置。除了导航之外，空间坐标在计算机图形学领域也是基础。当创建三维模型或动画时，艺术家和开发者使用空间坐标来定义模型中每个点相对于其他点的位置。这使得在视频游戏和电影中创建逼真的环境和角色成为可能。通过操控空间坐标，设计师可以控制虚拟空间中的运动、视角和交互，使其成为现代娱乐中不可或缺的工具。此外，地理信息系统（GIS）极大依赖于空间坐标来分析和可视化空间数据。例如，城市规划者使用GIS评估土地使用、基础设施发展和环境影响，通过使用空间坐标绘制特定区域。这使他们能够就资源分配和城市发展做出明智的决策，最终导致更可持续的城市。理解空间坐标在科学研究中也具有重要意义。在天文学等领域，物理学家和天文学家利用空间坐标来绘制天体的位置。通过了解星星和行星的空间坐标，科学家可以研究它们的运动、相互作用，甚至预测日食或流星雨等天文事件。这种知识增强了我们对宇宙及其在其中位置的理解。总之，空间坐标不仅仅是抽象的概念；它们是众多研究领域和实际应用的核心。无论是在导航、计算机图形学、GIS还是科学研究中，理解和利用空间坐标的能力对于创新和进步至关重要。随着技术的不断进步，掌握这一概念的重要性只会增加，为我们不断变化的世界中的探索和发现开辟新的途径。