omnibearing-distance navigation

简明释义

全向-距离导航

英英释义

例句

1.The omnibearing-distance navigation technology allows for seamless integration of various navigation aids.

这种全向距离导航技术允许各种导航辅助设备的无缝集成。

2.Using omnibearing-distance navigation, ships can determine their position more reliably in open waters.

利用全向距离导航，船只可以在开阔水域中更可靠地确定其位置。

3.The maritime industry has seen significant improvements with the adoption of omnibearing-distance navigation systems.

随着全向距离导航系统的采用，海事行业已经取得了显著改善。

4.During the training session, pilots learned how to use omnibearing-distance navigation effectively.

在培训课程中，飞行员学习了如何有效使用全向距离导航。

5.The new aircraft is equipped with advanced omnibearing-distance navigation systems that improve flight accuracy.

这架新飞机配备了先进的全向距离导航系统，提高了飞行精度。

作文

In the realm of modern navigation, the term omnibearing-distance navigation refers to a sophisticated method that allows navigators to determine their position using various bearings and distances from multiple reference points. This technique is particularly useful in complex environments where traditional navigation methods may fall short. By leveraging the principles of triangulation and advanced technology, omnibearing-distance navigation provides a more accurate and reliable means of determining one's location. One of the key advantages of omnibearing-distance navigation is its versatility. Unlike conventional navigation systems that rely on a single point of reference, this method can incorporate data from multiple sources, allowing for a more comprehensive understanding of the navigational landscape. For instance, in maritime navigation, a ship can utilize signals from various buoys, lighthouses, and GPS satellites to ascertain its position. This multi-faceted approach not only enhances accuracy but also increases safety, as it reduces the likelihood of navigational errors. Moreover, omnibearing-distance navigation is increasingly being integrated into autonomous systems, such as drones and self-driving vehicles. These technologies require precise navigation capabilities to operate effectively in dynamic environments. By employing omnibearing-distance navigation, these systems can continuously adjust their course based on real-time data, ensuring they remain on track despite any obstacles or changes in their surroundings. The implementation of omnibearing-distance navigation is also seen in aviation, where pilots rely on this method to navigate through challenging airspace. With the aid of advanced avionics, pilots can receive information from various ground stations, enabling them to make informed decisions about their flight path. This is particularly crucial during adverse weather conditions or when flying in unfamiliar territory. As technology continues to evolve, the future of omnibearing-distance navigation looks promising. Innovations in satellite technology, sensor integration, and data processing will likely enhance the capabilities of this navigation method. Furthermore, as we move towards an increasingly interconnected world, the need for robust navigation systems will only grow, making omnibearing-distance navigation an essential component of modern transportation. In conclusion, omnibearing-distance navigation represents a significant advancement in the field of navigation. Its ability to utilize multiple reference points and adapt to changing conditions makes it a valuable tool for a variety of applications, from maritime to aerial navigation. As we continue to explore new frontiers in technology and transportation, understanding and harnessing the power of omnibearing-distance navigation will be crucial for ensuring safe and efficient travel in our ever-evolving world.

在现代导航领域，术语全向距离导航指的是一种复杂的方法，允许导航员使用来自多个参考点的不同方位和距离来确定他们的位置。这种技术在复杂环境中尤为有用，因为传统的导航方法可能会失效。通过利用三角测量的原理和先进的技术，全向距离导航提供了一种更准确和可靠的确定位置的方法。全向距离导航的一个主要优点是它的多功能性。与依赖单一参考点的传统导航系统不同，这种方法可以结合来自多个来源的数据，从而对导航环境有更全面的理解。例如，在海洋导航中，船只可以利用来自各种浮标、灯塔和GPS卫星的信号来确定其位置。这种多方面的方法不仅提高了准确性，还增加了安全性，因为它减少了导航错误的可能性。此外，全向距离导航越来越多地被集成到自主系统中，例如无人机和自动驾驶车辆。这些技术需要精确的导航能力，以便在动态环境中有效运行。通过采用全向距离导航，这些系统可以根据实时数据不断调整其航向，确保它们在障碍物或周围环境变化的情况下保持在正确的轨道上。全向距离导航的实施在航空领域也得到了体现，飞行员依赖这种方法在具有挑战性的空域中导航。在先进航空电子设备的帮助下，飞行员可以接收来自各种地面站的信息，使他们能够就航线做出明智的决策。这在恶劣天气条件下或在不熟悉的领土上飞行时尤为重要。随着技术的不断发展，全向距离导航的未来看起来很有前景。卫星技术、传感器集成和数据处理的创新将可能增强这种导航方法的能力。此外，随着我们走向一个日益互联的世界，对强大导航系统的需求只会增加，使全向距离导航成为现代交通的重要组成部分。总之，全向距离导航代表了导航领域的一项重大进步。它能够利用多个参考点并适应变化的条件，使其成为从海洋到航空导航的各种应用中宝贵的工具。随着我们继续探索技术和交通的新前沿，理解和利用全向距离导航的力量对于确保我们不断发展的世界中的安全高效旅行至关重要。