stroboscopic direction finder

简明释义

频闪测向器

英英释义

例句

1.The pilot used the stroboscopic direction finder to locate the runway during low visibility conditions.

飞行员在能见度低的情况下使用了闪烁方向探测器来定位跑道。

2.In the navigation workshop, students learned how to operate a stroboscopic direction finder effectively.

在导航车间，学生们学习了如何有效操作闪烁方向探测器。

3.Using a stroboscopic direction finder, the team was able to track the movement of the aircraft.

通过使用闪烁方向探测器，团队能够跟踪飞机的移动。

4.The technician calibrated the stroboscopic direction finder before conducting the test.

技术人员在进行测试之前对闪烁方向探测器进行了校准。

5.The stroboscopic direction finder is essential for marine navigation to pinpoint the location of buoys.

对于海洋导航来说，闪烁方向探测器对于准确定位浮标至关重要。

作文

In the realm of navigation and engineering, precision is paramount. One of the fascinating tools that have emerged to enhance directional accuracy is the stroboscopic direction finder. This innovative device utilizes stroboscopic effects to determine the orientation and position of an object in relation to a reference point. The term 'stroboscopic' refers to a method of observing a periodic motion by using a flashing light or other periodic signals. By synchronizing the flashes with the movement of an object, the stroboscopic direction finder can create a visual representation of the object’s trajectory, making it easier for engineers and navigators to make informed decisions based on accurate data.The principle behind the stroboscopic direction finder is quite intriguing. When an object moves, it can be challenging to track its exact position, especially at high speeds. Traditional methods may involve continuous observation, which can lead to errors due to human limitations in perception. However, the stroboscopic technique allows for intermittent observation, where the motion appears to freeze during the brief moments when the light flashes. This phenomenon not only aids in pinpointing the direction but also enhances the clarity of the object's movement.Applications of the stroboscopic direction finder are vast and varied. In aviation, for instance, pilots use this technology to maintain accurate flight paths and ensure safety during navigation. Similarly, in maritime settings, sailors rely on the stroboscopic direction finder to chart their courses effectively, avoiding potential hazards and ensuring timely arrivals at destinations. Furthermore, in the field of robotics, this tool is invaluable for programming machines to navigate complex environments autonomously.Moreover, the stroboscopic direction finder is not limited to just navigation; it also plays a crucial role in various scientific research applications. For example, researchers studying the dynamics of fluid flow can utilize this device to better understand how substances move and interact under different conditions. By providing real-time data, the stroboscopic direction finder enhances the accuracy of experiments and contributes to significant advancements in scientific knowledge.On the technical side, the development of the stroboscopic direction finder has evolved significantly over the years. With advancements in technology, modern devices are now equipped with sophisticated sensors and software that enhance their functionality. These improvements allow for greater sensitivity and accuracy, enabling users to obtain precise measurements even in challenging environments.In conclusion, the stroboscopic direction finder represents a remarkable convergence of technology and practical application. Its ability to provide accurate directional information through innovative stroboscopic techniques has made it an indispensable tool in various fields, from aviation to robotics and scientific research. As technology continues to advance, we can only expect further enhancements in the capabilities of devices like the stroboscopic direction finder, ultimately leading to safer and more efficient navigation and exploration. This tool exemplifies how engineering ingenuity can solve complex problems and improve our understanding of the world around us.

在导航和工程领域，精确度至关重要。为了提高方向精度，出现了一种令人着迷的工具——stroboscopic direction finder（闪光方向探测器）。这种创新设备利用闪光效应来确定物体相对于参考点的方向和位置。“stroboscopic”这个术语是指通过使用闪烁的光或其他周期性信号来观察周期性运动的方法。通过将闪光与物体的运动同步，stroboscopic direction finder能够创建物体轨迹的可视化表示，使工程师和导航员能够根据准确的数据做出明智的决策。stroboscopic direction finder背后的原理非常有趣。当一个物体移动时，跟踪其确切位置可能会很困难，尤其是在高速情况下。传统的方法可能涉及持续观察，这可能会因为人类感知的局限性而导致错误。然而，闪光技术允许间歇性观察，在光线闪烁的短暂时刻，运动似乎被冻结。这种现象不仅有助于确定方向，还增强了物体运动的清晰度。stroboscopic direction finder的应用范围广泛。在航空领域，例如，飞行员使用这项技术来保持准确的飞行路径，并确保在导航过程中的安全。同样，在海洋环境中，水手依赖stroboscopic direction finder有效地绘制航线，避免潜在的危险，确保及时到达目的地。此外，在机器人技术领域，这种工具对于编程机器自主导航复杂环境也是不可或缺的。此外，stroboscopic direction finder不仅限于导航；它在各种科学研究应用中也发挥着关键作用。例如，研究流体流动动态的研究人员可以利用该设备更好地理解物质在不同条件下的运动和相互作用。通过提供实时数据，stroboscopic direction finder提高了实验的准确性，并为科学知识的重大进展做出了贡献。在技术方面，stroboscopic direction finder的发展多年来有了显著的进步。随着技术的进步，现代设备现在配备了先进的传感器和软件，增强了其功能。这些改进使得设备具有更高的灵敏度和准确性，使用户能够在挑战性环境中获得精确的测量。总之，stroboscopic direction finder代表了技术与实际应用的惊人融合。它通过创新的闪光技术提供准确的方向信息，使其成为航空、机器人和科学研究等多个领域不可或缺的工具。随着技术的不断进步，我们可以期待像stroboscopic direction finder这样的设备在功能上的进一步增强，最终导致更安全和更高效的导航和探索。这种工具体现了工程智慧如何解决复杂问题并改善我们对周围世界的理解。