absolute coordinates

简明释义

绝对坐标

英英释义

例句

1.In robotics, programming a robot to move to a specific point often requires absolute coordinates 绝对坐标 for accurate navigation.

在机器人技术中，编程机器人移动到特定点通常需要absolute coordinates 绝对坐标以实现准确导航。

2.GIS software uses absolute coordinates 绝对坐标 to represent the exact positions of geographical features.

地理信息系统（GIS）软件使用absolute coordinates 绝对坐标来表示地理特征的确切位置。

3.In computer graphics, the position of an object can be defined using absolute coordinates 绝对坐标 to specify its exact location on the screen.

在计算机图形学中，物体的位置可以使用absolute coordinates 绝对坐标来定义，以指定其在屏幕上的确切位置。

4.When mapping a city, you can use absolute coordinates 绝对坐标 to pinpoint locations precisely using latitude and longitude.

在绘制城市地图时，您可以使用absolute coordinates 绝对坐标通过纬度和经度精确定位。

5.When creating a 3D model, designers often refer to absolute coordinates 绝对坐标 to ensure that all elements are correctly positioned.

在创建3D模型时，设计师通常参考absolute coordinates 绝对坐标以确保所有元素都正确定位。

作文

In the field of mathematics and computer graphics, the concept of absolute coordinates is essential for accurately representing positions in a two-dimensional or three-dimensional space. The term absolute coordinates refers to a fixed system of reference that allows us to specify the location of a point based on a set of predefined axes. Unlike relative coordinates, which depend on the position of another point, absolute coordinates provide a definitive location that remains constant regardless of the observer's perspective.Understanding absolute coordinates can be likened to navigating a city using a map. When you look at a map, every point is marked with specific coordinates that are based on a grid system. For instance, if you want to find a restaurant located at (40.7128° N, 74.0060° W), these numbers represent its absolute coordinates. They tell you exactly where the restaurant is situated without needing to reference any other landmarks.In practical applications, absolute coordinates are used in various fields such as cartography, architecture, and robotics. For example, in architecture, an architect will use absolute coordinates to design buildings in relation to a site plan. This ensures that every element of the structure is placed accurately according to the overall design. Similarly, in robotics, when programming a robot to navigate through a space, engineers often rely on absolute coordinates to define the robot's movements in relation to a fixed point.Moreover, the use of absolute coordinates is not limited to physical spaces. In digital environments, such as video games or virtual reality, developers utilize absolute coordinates to create immersive experiences. Each object within the virtual world has its own absolute coordinates, allowing for precise interactions between characters and their environment. This technology enhances the realism of gameplay, as players can move freely and understand their position in relation to other objects.However, it is important to note that while absolute coordinates offer precision, they can also introduce complexity. For instance, when working with large datasets or complex systems, managing absolute coordinates can become cumbersome. In such cases, some professionals may prefer to use relative coordinates, which simplify calculations by referencing nearby points. This approach can make certain tasks more manageable, particularly in dynamic environments where objects may move frequently.In conclusion, the concept of absolute coordinates plays a crucial role in various disciplines, providing a reliable framework for locating points in space. Whether in the real world or in virtual settings, understanding absolute coordinates enables us to navigate and interact with our surroundings effectively. As technology continues to advance, the application of absolute coordinates will undoubtedly evolve, further enhancing our ability to create, design, and explore both physical and digital landscapes.

在数学和计算机图形学领域，绝对坐标的概念对于准确表示二维或三维空间中的位置至关重要。术语绝对坐标指的是一个固定的参考系统，使我们能够根据一组预定义的轴来指定点的位置。与依赖于另一个点位置的相对坐标不同，绝对坐标提供了一个明确的位置，无论观察者的视角如何，该位置始终保持不变。理解绝对坐标可以比作使用地图导航城市。当你查看地图时，每个点都用特定的坐标标记，这些坐标基于网格系统。例如，如果你想找到位于（40.7128° N，74.0060° W）的餐厅，这些数字代表其绝对坐标。它们告诉你餐厅的确切位置，而无需引用其他地标。在实际应用中，绝对坐标被广泛用于制图、建筑和机器人等多个领域。例如，在建筑设计中，建筑师将使用绝对坐标来根据场地平面设计建筑。这确保了结构的每个元素都根据整体设计准确放置。同样，在机器人技术中，当工程师编程机器人在空间中导航时，通常依赖于绝对坐标来定义机器人的运动相对于一个固定点。此外，绝对坐标的使用并不仅限于物理空间。在数字环境中，例如视频游戏或虚拟现实，开发者利用绝对坐标来创建沉浸式体验。虚拟世界中的每个对象都有自己的绝对坐标，使得角色与环境之间的互动变得精确。这项技术增强了游戏的现实感，因为玩家可以自由移动，理解自己相对于其他对象的位置。然而，需要注意的是，虽然绝对坐标提供了精确性，但也可能引入复杂性。例如，在处理大型数据集或复杂系统时，管理绝对坐标可能会变得繁琐。在这种情况下，一些专业人士可能更喜欢使用相对坐标，通过参考附近的点来简化计算。这种方法可以使某些任务更易于管理，特别是在对象可能频繁移动的动态环境中。总之，绝对坐标的概念在各个学科中发挥着至关重要的作用，为在空间中定位点提供了可靠的框架。无论是在现实世界还是在虚拟环境中，理解绝对坐标使我们能够有效地导航和与周围环境互动。随着科技的不断进步，绝对坐标的应用无疑会不断演变，进一步增强我们在物理和数字景观中创造、设计和探索的能力。