radiogoniometer
简明释义
英[reɪdɪəʊɡəʊnɪˈɒmɪtə]美[ˌredɪoˌɡonɪˈɑmɪtər]
n. 无线电方位计;[通信] 无线电测向计
英英释义
A radiogoniometer is a device used for determining the direction of radio signals by measuring the angle of arrival of the signal from a transmitter. | 辐射测向仪是一种用于通过测量信号从发射器到达的角度来确定无线电信号方向的设备。 |
单词用法
无线电测向仪校准 | |
手动无线电测向仪 | |
数字无线电测向仪 | |
安装无线电测向仪 | |
操作无线电测向仪 | |
来自无线电测向仪的读数 |
同义词
反义词
例句
1.The functions and designing ideas of the software were reported according to the Practice in the judgement of direction finding game with radiogoniometer.
本文就无线电测向比赛的裁判工作实际,浅谈该项应用软件的功能与其设计思想。
2.The functions and designing ideas of the software were reported according to the Practice in the judgement of direction finding game with radiogoniometer.
本文就无线电测向比赛的裁判工作实际,浅谈该项应用软件的功能与其设计思想。
3.The military relies on a radiogoniometer for accurate direction finding during operations.
军方依赖辐射测向仪在行动中进行精确的方向测定。
4.The research team employed a radiogoniometer to analyze the propagation of radio waves in urban areas.
研究小组使用辐射测向仪分析城市地区无线电波的传播情况。
5.In maritime navigation, a radiogoniometer helps in locating the position of ships.
在海上导航中,辐射测向仪有助于确定船只的位置。
6.For the radio technician, a radiogoniometer is an essential tool for troubleshooting signal issues.
对于无线电技术员来说,辐射测向仪是排查信号问题的重要工具。
7.The engineer used a radiogoniometer to determine the direction of incoming radio signals.
工程师使用辐射测向仪来确定接收无线电信号的方向。
作文
The field of radio navigation has seen significant advancements over the past few decades. One of the essential tools used in this domain is the radiogoniometer, a device that plays a crucial role in determining the direction of radio waves. The term radiogoniometer refers to an instrument that measures the angle of arrival of radio signals, which is vital for locating the source of these signals accurately. This capability is especially important in various applications, including aviation, maritime navigation, and even in search and rescue operations.In aviation, for instance, pilots rely on the radiogoniometer to navigate through challenging weather conditions or unfamiliar territories. By determining the direction from which a radio signal is coming, pilots can orient themselves and ensure they are on the correct flight path. This device works by comparing the phase difference between two or more antennas, allowing for precise angle measurements. As a result, the radiogoniometer enhances safety and efficiency in air travel, making it an indispensable tool in modern aviation.Similarly, in maritime navigation, ships utilize the radiogoniometer to maintain their course and avoid hazards. The ability to pinpoint the location of lighthouses or other navigational aids using radio signals helps sailors navigate safely across vast oceans. The radiogoniometer enables mariners to triangulate their position based on multiple radio signals, providing them with accurate information about their surroundings. This technology has been particularly beneficial in reducing the number of maritime accidents, showcasing the importance of the radiogoniometer in enhancing navigational safety.Moreover, the radiogoniometer has applications beyond navigation. In search and rescue missions, this device can be employed to locate distress signals from lost hikers or stranded vessels. Emergency services can use the radiogoniometer to quickly determine the source of a radio transmission, enabling them to respond promptly and effectively. This capability is invaluable in life-threatening situations where time is of the essence.Despite its significance, many people remain unaware of the radiogoniometer and its functions. Education and awareness campaigns can help illuminate the importance of this device in various fields. By understanding how the radiogoniometer operates and its practical applications, individuals can appreciate the technology that supports safe navigation and emergency response.In conclusion, the radiogoniometer is a remarkable instrument that serves a pivotal role in radio navigation and beyond. Its ability to measure the direction of radio waves has transformed how we navigate the skies and seas, ensuring safety and efficiency in transportation. As technology continues to evolve, the radiogoniometer will undoubtedly remain a vital tool in various industries, highlighting the importance of understanding and mastering such specialized instruments. By fostering greater awareness of the radiogoniometer, we can inspire future generations to explore the fascinating world of radio technology and its applications.
在过去几十年中,无线电导航领域经历了显著的进步。其中一个在这个领域中使用的重要工具是radiogoniometer,这是一种在确定无线电波方向方面起着关键作用的设备。术语radiogoniometer指的是一种测量无线电信号到达角度的仪器,这对准确定位这些信号源至关重要。这种能力在航空、海洋导航甚至搜救行动等各种应用中尤为重要。例如,在航空领域,飞行员依赖于radiogoniometer在恶劣天气条件或不熟悉的领土中导航。通过确定无线电信号的来源方向,飞行员可以调整自己的方向,确保他们处于正确的航线上。该设备通过比较两个或多个天线之间的相位差来工作,从而允许精确的角度测量。因此,radiogoniometer提高了航空旅行的安全性和效率,使其成为现代航空中不可或缺的工具。同样,在海洋导航中,船只利用radiogoniometer保持航向并避免危险。利用无线电信号准确定位灯塔或其他导航辅助设备的能力帮助水手安全地穿越广阔的海洋。radiogoniometer使海员能够基于多个无线电信号三角测量他们的位置,为他们提供有关周围环境的准确信息。这项技术在减少海上事故数量方面特别有益,展示了radiogoniometer在增强导航安全性方面的重要性。此外,radiogoniometer在导航之外也有应用。在搜救任务中,可以使用该设备定位失踪登山者或被困船只的求救信号。紧急服务可以利用radiogoniometer快速确定无线电传输的来源,使他们能够迅速有效地做出反应。这种能力在危及生命的情况下尤其宝贵,因为时间至关重要。尽管其重要性,许多人仍然对radiogoniometer及其功能一无所知。教育和宣传活动可以帮助揭示该设备在各个领域的重要性。通过了解radiogoniometer的工作原理及其实际应用,个人可以欣赏支持安全导航和紧急响应的技术。总之,radiogoniometer是一种非凡的仪器,在无线电导航及其他领域中发挥着关键作用。它测量无线电波方向的能力改变了我们如何在天空和海洋中导航,确保运输的安全性和效率。随着技术的不断发展,radiogoniometer无疑将继续在各个行业中发挥重要作用,突显出理解和掌握此类专业仪器的重要性。通过提高对radiogoniometer的认识,我们可以激励未来的几代人探索无线电技术及其应用的迷人世界。
