azimuth only

简明释义

按天体方位控制

英英释义

例句

1.In this mapping software, you can choose azimuth only for a simplified view.

在这个制图软件中，您可以选择方位角以获得简化视图。

2.For this experiment, we will collect data based on azimuth only measurements.

在这个实验中，我们将根据方位角测量收集数据。

3.The navigation system was set to track the satellite using azimuth only.

导航系统被设置为仅使用方位角跟踪卫星。

4.The pilot was instructed to maintain azimuth only navigation during the flight.

飞行员被指示在飞行过程中保持方位角导航。

5.The telescope was calibrated for azimuth only adjustments to simplify operations.

望远镜经过校准，仅进行方位角调整以简化操作。

作文

Understanding the concept of navigation is essential in various fields, particularly in astronomy, surveying, and military operations. One term that often arises in these contexts is azimuth only, which refers to a measurement that indicates the angle between a reference direction (usually true north) and the line of sight to an object. This concept is crucial for determining the position of celestial bodies or terrestrial landmarks. In essence, when we say azimuth only, we are focusing solely on the horizontal angle, disregarding any vertical component, such as altitude or elevation. This simplification allows navigators and astronomers to create more manageable models for their observations.In practical terms, using azimuth only can significantly streamline calculations. For instance, when plotting the path of a star across the night sky, astronomers often rely on azimuth measurements to determine where to point their telescopes. By ignoring the elevation angle, they can concentrate on the horizontal orientation, which is sufficient for many observational purposes. This method is particularly useful in situations where the observer's location is fixed, and the primary concern is tracking the movement of objects across a flat plane.Furthermore, the azimuth only approach is not limited to astronomy. Surveyors, for example, use azimuth measurements to establish property boundaries and map out land features. By taking a series of azimuth readings, they can create accurate representations of the terrain without needing to account for changes in height. This technique simplifies the surveying process and allows for quicker data collection, which is especially beneficial in large-scale projects.In military applications, understanding azimuth only is critical for navigation and targeting. Soldiers and pilots often use azimuth readings to orient themselves on the battlefield or in the air. By knowing the azimuth to a target, they can adjust their course accordingly, ensuring precision in their operations. This focus on horizontal angles helps minimize errors that could arise from complex vertical calculations, allowing for more efficient decision-making in high-pressure situations.Despite its advantages, relying solely on azimuth only measurements does have limitations. For instance, in mountainous regions or areas with significant elevation changes, neglecting the vertical component can lead to inaccuracies. Observers might misjudge distances or fail to account for obstacles that could obstruct their line of sight. Therefore, while azimuth only provides a simplified framework, it is essential to recognize when additional measurements are necessary to achieve accurate results.In conclusion, the term azimuth only encapsulates a vital aspect of navigation and observation across various disciplines. By focusing on horizontal angles, professionals can streamline their processes and enhance efficiency in their work. However, it is crucial to understand the context in which this approach is applied, as there are instances where incorporating vertical measurements is necessary for accuracy. As technology continues to evolve, the methods of measuring and utilizing azimuth will likely become even more sophisticated, further enhancing our ability to navigate and understand the world around us.

理解导航概念在多个领域中至关重要，特别是在天文学、测量和军事行动中。一个常常出现的术语是azimuth only，它指的是一种测量，表示参考方向（通常是正北）与观察对象之间的视线角度。这个概念对于确定天体或地标的位置至关重要。实际上，当我们说azimuth only时，我们专注于水平方向的角度，而忽略任何垂直成分，例如高度或海拔。这种简化使导航员和天文学家能够为他们的观察创建更易于管理的模型。在实际应用中，使用azimuth only可以显著简化计算。例如，在绘制星星在夜空中的路径时，天文学家通常依赖方位角测量来确定望远镜的指向。通过忽略高度角，他们可以集中精力于水平方向，这对于许多观察目的来说是足够的。这种方法在观察者位置固定且主要关注对象在平面上移动的情况下尤其有用。此外，azimuth only的方法并不仅限于天文学。测量师也使用方位角测量来确定财产边界和绘制土地特征。通过进行一系列方位角读数，他们可以准确地表示地形，而无需考虑高度变化。这种技术简化了测量过程，并允许更快速的数据收集，这在大型项目中尤为受益。在军事应用中，理解azimuth only对于导航和目标定位至关重要。士兵和飞行员经常使用方位角读数来在战场或空中定向。通过知道目标的方位角，他们可以相应地调整航向，确保操作的精确性。这种对水平角度的关注有助于最小化可能由复杂的垂直计算引起的错误，从而在高压情况下实现更有效的决策。尽管有其优势，但仅依靠azimuth only测量也有局限性。例如，在山区或具有显著高度变化的地区，忽视垂直成分可能导致不准确。观察者可能误判距离或未能考虑可能阻碍视线的障碍。因此，虽然azimuth only提供了一种简化的框架，但认识到在何种情况下需要额外测量以实现准确结果是至关重要的。总之，术语azimuth only概括了各个学科中导航和观察的重要方面。通过关注水平角度，专业人员可以简化他们的过程并提高工作效率。然而，理解这种方法应用的背景至关重要，因为在某些情况下，结合垂直测量是实现准确性的必要条件。随着技术的不断发展，测量和利用方位角的方法可能会变得更加复杂，进一步增强我们导航和理解周围世界的能力。