skywave synchronized Loran

简明释义

天波同步罗兰导航系统

英英释义

例句

1.The marine navigation system uses skywave synchronized Loran to ensure accurate positioning.

海洋导航系统使用天波同步Loran来确保准确定位。

2.The aviation industry benefits from skywave synchronized Loran for enhanced navigation accuracy.

航空业从天波同步Loran中受益，以提高导航精度。

3.During the storm, the skywave synchronized Loran signals remained stable for our ship's guidance.

在暴风雨期间，天波同步Loran信号保持稳定，为我们船只的导航提供了帮助。

4.The skywave synchronized Loran technology has improved the reliability of long-distance communication.

通过使用天波同步Loran技术，长距离通信的可靠性得到了改善。

5.We rely on skywave synchronized Loran for precise timing in our synchronization processes.

我们依赖天波同步Loran在同步过程中实现精确计时。

作文

In the world of navigation and communication, various technologies have evolved to ensure accurate positioning and reliable information transfer. One such technology that has gained prominence is skywave synchronized Loran. This system represents a significant advancement in the field of radio navigation, particularly for marine and aviation applications. To understand the importance and functionality of skywave synchronized Loran, it is essential to explore its principles, advantages, and applications.The term 'Loran' stands for Long Range Navigation, a system that utilizes low-frequency radio signals transmitted from fixed ground stations. Traditionally, Loran systems relied on ground wave propagation, which limited their range and effectiveness. However, the introduction of skywave synchronized Loran marked a revolutionary change. By synchronizing the transmission of signals and utilizing skywave propagation, this technology enables much greater distances to be covered, allowing for more extensive coverage and improved accuracy.Skywave propagation occurs when radio waves are reflected off the ionosphere, a layer of the Earth's atmosphere. This phenomenon allows signals to travel beyond the horizon, making it possible for vessels and aircraft to receive navigation signals even when they are far from land. The synchronization aspect of skywave synchronized Loran ensures that the signals from multiple stations arrive at the receiver simultaneously, which is crucial for determining precise locations. This synchronization minimizes errors caused by varying signal travel times, thus enhancing the overall reliability of the navigation system.One of the primary advantages of skywave synchronized Loran is its ability to provide accurate positioning in areas where other navigation systems may falter. For example, GPS signals can be obstructed by tall buildings or dense foliage, leading to inaccuracies. In contrast, skywave synchronized Loran can maintain its effectiveness in such environments due to its reliance on radio waves that can bypass physical obstructions.Moreover, skywave synchronized Loran is particularly beneficial in regions where satellite signals are weak or unavailable. This includes remote areas, oceans, and polar regions, where traditional GPS systems may struggle. By providing a reliable alternative, skywave synchronized Loran enhances safety for maritime and aviation operations, ensuring that navigators can maintain their course even in challenging conditions.The applications of skywave synchronized Loran extend beyond mere navigation. It can also support various other functions such as timing synchronization for telecommunications and scientific research. Accurate timing is critical in many fields, and the use of synchronized signals from skywave synchronized Loran can facilitate this need effectively.In conclusion, skywave synchronized Loran represents a significant leap forward in navigation technology. Its ability to provide accurate positioning over vast distances, coupled with its resilience in challenging environments, makes it an invaluable tool for mariners and aviators alike. As we continue to advance in technology, understanding systems like skywave synchronized Loran will be crucial for future developments in navigation and communication. With its unique capabilities, skywave synchronized Loran not only enhances safety but also paves the way for innovations in various fields reliant on precise location and timing.

在导航和通信的世界中，各种技术不断发展，以确保准确定位和可靠的信息传输。其中一种日益突出的技术是天空波同步Loran。该系统代表了无线电导航领域的重大进步，特别是在海洋和航空应用方面。要理解天空波同步Loran的重要性和功能，必须探讨其原理、优势和应用。“Loran”一词代表长距离导航，是一种利用固定地面站发送低频无线电信号的系统。传统的Loran系统依赖于地面波传播，这限制了它们的范围和有效性。然而，天空波同步Loran的引入标志着革命性的变化。通过同步信号的传输并利用天空波传播，这项技术使得覆盖更大距离成为可能，从而实现更广泛的覆盖和提高的准确性。天空波传播发生在无线电波反射到电离层时，这是地球大气层的一部分。这种现象使信号能够超越地平线，使船只和飞机即使远离陆地也能接收导航信号。天空波同步Loran的同步特性确保来自多个站点的信号同时到达接收器，这对于确定精确位置至关重要。这种同步最小化了由于信号传播时间不同而导致的误差，从而增强了导航系统的整体可靠性。天空波同步Loran的主要优势之一是它能够在其他导航系统可能失效的区域提供准确定位。例如，GPS信号可能会被高楼大厦或密集的树木阻挡，导致不准确。相比之下，天空波同步Loran可以在这种环境中保持其有效性，因为它依赖于能够绕过物理障碍的无线电波。此外，天空波同步Loran在卫星信号较弱或不可用的地区尤其有益。这包括偏远地区、海洋和极地地区，在这些地方，传统的GPS系统可能会遇到困难。通过提供可靠的替代方案，天空波同步Loran增强了海洋和航空操作的安全性，确保导航员即使在挑战条件下也能保持航向。天空波同步Loran的应用不仅仅限于导航。它还可以支持电信和科学研究等其他多种功能。准确的时间同步在许多领域至关重要，而使用天空波同步Loran的同步信号可以有效地满足这一需求。总之，天空波同步Loran代表了导航技术的重大飞跃。它在广阔距离上提供准确定位的能力，加上在挑战性环境中的韧性，使其成为海员和飞行员不可或缺的工具。随着我们在技术上的不断进步，理解像天空波同步Loran这样的系统将对未来导航和通信的发展至关重要。凭借其独特的能力，天空波同步Loran不仅增强了安全性，还为依赖精确位置和时间的各个领域的创新铺平了道路。