stereoscopic range finder

简明释义

立体测距仪

英英释义

例句

1.The architect used a stereoscopic range finder to measure the dimensions of the building accurately.

建筑师使用立体测距仪准确测量建筑的尺寸。

2.In photography, a stereoscopic range finder can help achieve perfect focus for 3D images.

在摄影中，立体测距仪可以帮助实现3D图像的完美对焦。

3.Using a stereoscopic range finder is essential for creating accurate topographical maps.

使用立体测距仪对于制作准确的地形图至关重要。

4.The surveyor relied on a stereoscopic range finder to ensure precise land measurements.

测量员依靠立体测距仪来确保土地测量的精确性。

5.The military employs a stereoscopic range finder for targeting and reconnaissance missions.

军方在瞄准和侦察任务中使用立体测距仪。

作文

In the field of optics and surveying, a crucial tool that has significantly enhanced our ability to measure distances accurately is the stereoscopic range finder. This device utilizes the principles of stereoscopy, which involves the perception of depth based on the slight differences in images received by our two eyes. By mimicking this natural process, the stereoscopic range finder allows users to determine the distance to an object by analyzing the disparity between two images taken from slightly different angles.The operation of a stereoscopic range finder is relatively straightforward. When the device is aimed at a target, it captures two images from different viewpoints. These images are then processed, and the brain-like mechanism of the device interprets the differences between them. The greater the disparity, the closer the object is to the observer. Conversely, if the images are nearly identical, the object is likely to be far away. This ability to gauge distance with precision makes the stereoscopic range finder invaluable in various applications, including architecture, construction, and even in the military for targeting purposes.One of the remarkable advantages of using a stereoscopic range finder is its effectiveness in three-dimensional space. Unlike traditional range finders that may rely solely on laser technology or simple triangulation methods, the stereoscopic approach provides a more intuitive understanding of distance and depth. This feature is particularly beneficial in environments where obstacles may obstruct direct lines of sight, such as dense forests or urban landscapes. In these situations, the stereoscopic range finder can deliver reliable measurements without necessitating a clear view of the target.Furthermore, advancements in technology have led to the development of digital stereoscopic range finders, which integrate sophisticated software to enhance measurement accuracy and ease of use. These modern devices often come equipped with features such as digital displays, data logging capabilities, and connectivity options for smartphones and tablets. Such innovations make the stereoscopic range finder not only more user-friendly but also more versatile, catering to professionals across various fields.In education, the stereoscopic range finder serves as an excellent teaching aid. It helps students visualize concepts related to geometry and spatial awareness. By engaging with this tool, learners can better understand how distance and perspective work in real life. This hands-on experience can foster a deeper appreciation for the science of measurement and its practical applications.In conclusion, the stereoscopic range finder stands out as an essential instrument in the realm of distance measurement. Its ability to provide accurate, three-dimensional data makes it a preferred choice among professionals in surveying, construction, and education. As technology continues to evolve, we can expect further enhancements in the functionality of these devices, solidifying their role in advancing our understanding of the world around us. Whether in the field or the classroom, the stereoscopic range finder exemplifies the intersection of science and practicality, bridging the gap between theoretical knowledge and real-world application.

在光学和测量领域，一种重要工具显著提升了我们准确测量距离的能力，那就是立体测距仪。该设备利用了立体视觉的原理，即基于我们两只眼睛接收图像之间的微小差异来感知深度。通过模拟这一自然过程，立体测距仪使用户能够通过分析从稍微不同角度拍摄的两幅图像之间的差异来确定物体的距离。立体测距仪的操作相对简单。当设备瞄准目标时，它从不同的视点捕捉到两幅图像。这些图像随后被处理，设备的类似大脑机制解释它们之间的差异。差异越大，物体离观察者就越近。相反，如果图像几乎相同，则物体可能离得很远。这种精确测量距离的能力使得立体测距仪在建筑、施工甚至军事目标定位等各种应用中显得尤为重要。使用立体测距仪的一个显著优势是其在三维空间中的有效性。与仅依赖激光技术或简单三角测量方法的传统测距仪不同，立体方法提供了对距离和深度的更直观理解。这一特点在障碍物可能阻碍直接视线的环境中尤其有益，例如密林或城市景观。在这些情况下，立体测距仪能够在不需要清晰视野的情况下提供可靠的测量。此外，技术的进步促使数字立体测距仪的发展，这些设备集成了先进的软件，以增强测量精度和易用性。这些现代设备通常配备有数字显示、数据记录功能以及与智能手机和平板电脑的连接选项。这些创新使得立体测距仪不仅更易于使用，而且更具多样性，适用于各个领域的专业人士。在教育中，立体测距仪作为一种优秀的教学工具。它帮助学生可视化与几何和空间意识相关的概念。通过与这一工具互动，学习者可以更好地理解距离和透视在现实生活中的运作。这种实践经验可以培养对测量科学及其实际应用的更深刻理解。总之，立体测距仪在距离测量领域中脱颖而出，成为一种必不可少的工具。其提供准确的三维数据的能力，使其成为测量、建筑和教育领域专业人士的首选。随着技术的不断发展，我们可以期待这些设备功能的进一步增强，从而巩固它们在推动我们理解周围世界中的作用。无论是在现场还是课堂上，立体测距仪都体现了科学与实用性的交汇，架起了理论知识与现实应用之间的桥梁。