compass traverse

简明释义

罗经航行

英英释义

例句

1.To create an accurate map, the team conducted a compass traverse across the rugged terrain.

为了制作准确的地图，团队在崎岖的地形上进行了罗盘测量。

2.During the fieldwork, they relied on a compass traverse for precise navigation.

在实地工作中，他们依赖于罗盘测量进行精确导航。

3.Using a compass traverse, the team was able to plot the location of the ancient ruins.

通过使用罗盘测量，团队能够绘制出古代遗址的位置。

4.The surveyor used a compass traverse to determine the boundaries of the new property.

测量员使用罗盘测量来确定新物业的边界。

5.The engineer explained how a compass traverse helps in establishing control points.

工程师解释了罗盘测量如何帮助建立控制点。

作文

In the field of surveying and navigation, the term compass traverse refers to a method used to determine the position of a series of points in a two-dimensional plane. This technique employs a compass to measure angles and distances between various points, allowing surveyors to create accurate maps and layouts of land. The process involves taking a series of measurements at each point, which are then used to calculate the next location based on the known distance and angle. Understanding how to perform a compass traverse is essential for anyone involved in geospatial sciences, engineering, or construction projects. The first step in conducting a compass traverse is to set up the compass at the starting point. The surveyor must ensure that the compass is level and properly aligned. Once the compass is stable, the surveyor will take a bearing, which is the angle between the north direction and the line connecting the starting point to the next point. This bearing is crucial for accurately determining the direction of travel. After recording the bearing, the surveyor measures the distance to the next point using a measuring tape or other distance-measuring tools. As the surveyor moves from one point to another, they repeat this process: taking bearings and measuring distances. Each new point is calculated based on the previous point’s coordinates, the angle measured by the compass, and the distance traveled. By systematically applying these measurements, the surveyor can accurately plot a series of points on a map. The importance of the compass traverse method lies in its simplicity and effectiveness. Unlike more complex electronic methods, it requires minimal equipment and can be performed in various environmental conditions. This makes it particularly valuable in remote areas where access to advanced technology may be limited. Furthermore, the compass traverse technique allows for real-time adjustments, enabling surveyors to correct any errors immediately as they work. However, it is essential to be aware of the limitations of the compass traverse. Factors such as magnetic declination, local magnetic interference, and human error can affect the accuracy of the measurements. Surveyors must take these factors into account and apply corrections as needed to ensure the integrity of their data. In conclusion, the compass traverse is a fundamental surveying technique that has stood the test of time. Its straightforward methodology and adaptability make it an invaluable tool for professionals in various fields. Whether mapping out a construction site, conducting land surveys, or exploring uncharted territories, understanding and mastering the compass traverse method is crucial for achieving accuracy and precision in spatial measurements. As technology continues to evolve, the principles behind the compass traverse remain relevant, reminding us of the foundational techniques that have shaped our understanding of geography and navigation.

在测量和导航领域，术语compass traverse指的是一种用于确定二维平面上一系列点位置的方法。这种技术利用指南针来测量各个点之间的角度和距离，使测量员能够创建土地的准确地图和布局。该过程涉及在每个点进行一系列测量，然后根据已知的距离和角度计算下一个位置。理解如何进行compass traverse对任何参与地理空间科学、工程或建筑项目的人来说都是至关重要的。进行compass traverse的第一步是将指南针设置在起始点。测量员必须确保指南针水平并正确对齐。一旦指南针稳定，测量员将进行方位角测量，即北方向与连接起始点和下一个点的直线之间的角度。这个方位角对于准确确定行进方向至关重要。在记录方位角后，测量员使用卷尺或其他测距工具测量到下一个点的距离。当测量员从一个点移动到另一个点时，他们会重复这个过程：测量方位角和测量距离。每个新点的计算基于前一个点的坐标、指南针测得的角度和移动的距离。通过系统地应用这些测量，测量员可以准确地在地图上绘制一系列点。compass traverse方法的重要性在于其简单性和有效性。与更复杂的电子方法不同，它所需的设备最少，并且可以在各种环境条件下执行。这使得它在偏远地区特别有价值，因为在这些地方可能无法使用先进的技术。此外，compass traverse技术允许实时调整，使测量员能够在工作中立即纠正任何错误。然而，必须意识到compass traverse的局限性。磁偏角、局部磁干扰和人为错误等因素可能会影响测量的准确性。测量员必须考虑这些因素，并根据需要进行修正，以确保数据的完整性。总之，compass traverse是一种基础的测量技术，经受住了时间的考验。它的简单方法和适应性使其成为各个领域专业人士的宝贵工具。无论是绘制建筑工地地图、进行土地测量，还是探索未知领域，理解和掌握compass traverse方法对于实现空间测量的准确性和精确性至关重要。随着技术的不断发展，compass traverse背后的原理仍然相关，提醒我们那些塑造了我们对地理和导航理解的基础技术。