omnidirectional range station

简明释义

全向测距电台

英英释义

例句

1.Many airports are equipped with an omnidirectional range station to assist pilots.

许多机场配备了全向测距台以协助飞行员。

2.An omnidirectional range station can help improve the safety of aircraft landings.

一个全向测距台可以提高飞机降落的安全性。

3.The pilot used the omnidirectional range station to navigate accurately during the flight.

飞行员利用全向测距台在飞行中准确导航。

4.During training, the students learned how to operate an omnidirectional range station effectively.

在培训期间，学生们学习了如何有效操作全向测距台。

5.The omnidirectional range station provides precise location data for air traffic control.

该全向测距台为空中交通管制提供精确的位置数据。

作文

In the realm of aviation and navigation, precise positioning is crucial for safety and efficiency. One of the key technologies that facilitate this precision is the omnidirectional range station. An omnidirectional range station is a type of radio navigation aid that provides information about an aircraft's position relative to the station itself. This technology plays a vital role in ensuring that pilots can navigate accurately, especially in poor visibility conditions or during complex flight maneuvers.The basic principle behind an omnidirectional range station involves the transmission of radio signals. The station emits signals in all directions, allowing aircraft equipped with appropriate receivers to determine their bearing from the station. By analyzing the phase difference of the received signals, pilots can ascertain their exact location. This system is particularly beneficial because it does not require the aircraft to be within a specific line of sight of the station, as it operates effectively in all directions.Historically, the use of omnidirectional range stations began in the mid-20th century, and since then, they have evolved significantly. Modern versions are often integrated with other navigation systems, such as GPS, to enhance accuracy and reliability. Pilots rely on these stations not only for navigation but also for approach and landing procedures at airports. The ability to receive real-time updates about their position allows pilots to make informed decisions while flying.Furthermore, the implementation of omnidirectional range stations has contributed to the overall safety of air travel. By providing continuous and reliable navigation data, these stations reduce the risk of accidents caused by navigational errors. In addition, they support air traffic control systems by helping to manage the flow of air traffic more efficiently. As a result, omnidirectional range stations have become an integral part of the modern aviation infrastructure.Despite the advancements in technology, the importance of traditional navigation aids like the omnidirectional range station cannot be overstated. While satellite-based systems such as GPS are widely used, they can be susceptible to interference or signal loss. In contrast, omnidirectional range stations provide a reliable backup that enhances the resilience of navigation systems. This redundancy is essential for maintaining safety in aviation, especially in critical situations where every second counts.In conclusion, the omnidirectional range station is a fundamental component of aviation navigation, offering pilots the necessary tools to navigate safely and efficiently. Its ability to provide accurate positional information in all directions makes it invaluable, particularly in challenging flying conditions. As technology continues to advance, the integration of omnidirectional range stations with modern navigation systems will likely enhance their effectiveness further, ensuring that air travel remains one of the safest modes of transportation available today. The continued reliance on these stations highlights their enduring significance in the ever-evolving landscape of aviation technology.

在航空和导航领域，精确定位对于安全和效率至关重要。促进这种精确度的关键技术之一是全向测距站。全向测距站是一种无线电导航辅助设备，提供有关飞机相对于该站位置的信息。这项技术在确保飞行员能够准确导航方面发挥着重要作用，尤其是在能见度差或复杂飞行操作期间。全向测距站的基本原理涉及无线电信号的传输。该站向所有方向发射信号，允许配备适当接收器的飞机确定其与该站的方位。通过分析接收到的信号的相位差，飞行员可以确定他们的确切位置。这个系统特别有利，因为它不要求飞机与站点之间保持特定的视线，因为它在所有方向上都有效。历史上，全向测距站的使用始于20世纪中期，从那时起，它们已经显著发展。现代版本通常与其他导航系统（如GPS）集成，以提高精度和可靠性。飞行员不仅依赖这些站进行导航，还依赖它们进行机场的进场和着陆程序。接收有关其位置的实时更新使飞行员能够在飞行中做出明智的决策。此外，全向测距站的实施有助于提高航空旅行的整体安全性。通过提供持续可靠的导航数据，这些站减少了因导航错误导致的事故风险。此外，它们通过帮助更有效地管理空中交通流量来支持空中交通控制系统。因此，全向测距站已成为现代航空基础设施的一个不可或缺的部分。尽管技术不断进步，但传统导航辅助设备如全向测距站的重要性不可低估。尽管基于卫星的系统如GPS被广泛使用，但它们可能会受到干扰或信号丢失的影响。相比之下，全向测距站提供了一个可靠的备份，增强了导航系统的韧性。这种冗余对于在关键情况下保持航空安全至关重要，尤其是在每一秒都至关重要的情况下。总之，全向测距站是航空导航的基本组成部分，为飞行员提供必要的工具，以安全高效地导航。它在所有方向上提供准确的位置信息的能力使其在困难飞行条件下变得不可或缺。随着技术的不断进步，全向测距站与现代导航系统的集成可能进一步增强其有效性，确保航空旅行仍然是今天可用的最安全的交通方式之一。对这些站的持续依赖突显了它们在不断发展的航空技术领域中的持久重要性。