omnibearing distance

简明释义

全方位距离

英英释义

例句

1.The GPS device calculates the omnibearing distance 全向距离 to provide the most efficient route for travelers.

GPS设备计算全向距离以为旅行者提供最有效的路线。

2.In urban planning, the omnibearing distance 全向距离 helps determine how far services are accessible from different points.

在城市规划中，全向距离帮助确定不同点的服务可达性。

3.The drone's navigation system calculates the omnibearing distance 全向距离 to ensure it can reach the target location from any angle.

无人机的导航系统计算全向距离以确保它可以从任何角度到达目标位置。

4.The surveyor used the concept of omnibearing distance 全向距离 to measure land accurately from multiple reference points.

测量员使用全向距离的概念从多个参考点准确测量土地。

5.When designing a wireless network, engineers consider the omnibearing distance 全向距离 to optimize signal coverage.

在设计无线网络时，工程师考虑全向距离以优化信号覆盖。

作文

In the realm of navigation and geospatial analysis, understanding various distance measures is crucial for effective planning and execution. One such term that often arises in discussions about navigation systems is omnibearing distance. This concept refers to the distance measured in any direction from a specific point, making it a versatile tool in both terrestrial and aerial navigation. When pilots or navigators speak of omnibearing distance, they are often referring to the ability to calculate how far they can travel in any direction from their current location without needing to adhere to a fixed bearing.The importance of omnibearing distance becomes evident when considering its applications in various fields. For instance, in aviation, pilots must be aware of their surroundings and potential obstacles as they navigate through three-dimensional airspace. By utilizing omnibearing distance, they can assess safe distances to avoid collisions and ensure safe landings and takeoffs. Similarly, in maritime navigation, sailors rely on this measure to determine safe passage routes, accounting for currents, winds, and other environmental factors that may affect their journey.Moreover, the concept of omnibearing distance is not limited to physical navigation. It also plays a significant role in geographic information systems (GIS) and urban planning. City planners use this measure to analyze accessibility to services and infrastructure from various locations within a city. For example, by calculating the omnibearing distance from a central bus station, planners can identify areas that are well-served by public transport and those that may require additional services to improve accessibility for residents.In addition to practical applications, understanding omnibearing distance enhances our overall comprehension of spatial relationships. It allows individuals to visualize how distance affects interaction and connectivity between different points. In an increasingly interconnected world, being able to assess distances in all directions can inform decisions in business, logistics, and even social interactions. For instance, businesses can use omnibearing distance to determine optimal locations for new stores by evaluating customer accessibility from various neighborhoods.Furthermore, advancements in technology have made the calculation and application of omnibearing distance more accessible than ever. With the rise of GPS and mobile mapping applications, users can effortlessly determine their position and calculate distances in real-time, regardless of their orientation. This democratization of navigation tools empowers individuals to make informed decisions based on accurate distance measurements.In conclusion, the term omnibearing distance encapsulates a vital concept in navigation, urban planning, and spatial analysis. Its ability to measure distance in any direction provides a comprehensive understanding of spatial relationships, which is essential in various fields. As technology continues to evolve, the significance of omnibearing distance will only grow, enabling more precise navigation and better-informed decision-making in our daily lives.

在导航和地理空间分析领域，理解各种距离测量对于有效的规划和执行至关重要。其中一个常常在导航系统讨论中出现的术语是全向距离。这个概念指的是从特定点向任何方向测量的距离，使其成为陆地和空中导航中的多功能工具。当飞行员或导航员谈论全向距离时，他们通常指的是计算他们可以在当前位置向任何方向旅行的远距离，而无需遵循固定的航向。全向距离的重要性在于其在各个领域的应用。例如，在航空中，飞行员必须意识到周围环境和潜在障碍，因为他们在三维空域中导航。通过利用全向距离，他们可以评估安全距离以避免碰撞，并确保安全着陆和起飞。同样，在海洋导航中，水手依赖这一测量来确定安全的航行路线，考虑到可能影响航程的潮流、风和其他环境因素。此外，全向距离的概念并不限于物理导航。它在地理信息系统（GIS）和城市规划中也发挥着重要作用。城市规划者利用这一测量来分析城市中各个位置到服务和基础设施的可达性。例如，通过计算从中心公交车站的全向距离，规划者可以识别出公共交通服务良好的区域以及那些可能需要额外服务以改善居民可达性的区域。除了实际应用，理解全向距离还增强了我们对空间关系的整体理解。它使个人能够可视化距离如何影响不同点之间的互动和连接。在一个日益互联的世界中，能够评估各个方向的距离可以为商业、物流甚至社交互动中的决策提供信息。例如，企业可以利用全向距离来确定新商店的最佳位置，通过评估来自各个社区的客户可达性。此外，技术的进步使得计算和应用全向距离变得比以往更加容易。随着GPS和移动地图应用程序的兴起，用户可以轻松地实时确定自己的位置并计算距离，无论他们的朝向如何。这种导航工具的普及使个人能够根据准确的距离测量做出明智的决策。总之，术语全向距离概括了导航、城市规划和空间分析中的一个重要概念。其在任何方向上测量距离的能力提供了对空间关系的全面理解，这在各个领域都是必不可少的。随着技术的不断发展，全向距离的重要性将只会增加，使我们在日常生活中能够更精确地导航和做出更明智的决策。