range-range navigation

简明释义

圆—圆航法

英英释义

Range-range navigation refers to a method of determining the position of a vehicle or object by measuring the distances (ranges) to multiple reference points or beacons.

范围-范围导航是指通过测量与多个参考点或信标的距离(范围)来确定车辆或物体位置的一种方法。

例句

1.Using range-range navigation, the hiker was able to find the shortest route through the forest.

利用范围-范围导航,徒步旅行者能够找到穿越森林的最短路线。

2.The GPS system incorporates range-range navigation to provide real-time location updates.

GPS系统结合了范围-范围导航以提供实时位置更新。

3.The pilot used range-range navigation to accurately determine the aircraft's position during the flight.

飞行员使用范围-范围导航来准确确定飞行中的飞机位置。

4.The new drone technology relies on range-range navigation for precise delivery of packages.

新型无人机技术依赖于范围-范围导航以精确投递包裹。

5.In maritime operations, range-range navigation helps vessels avoid obstacles while maintaining their course.

在海上作业中,范围-范围导航帮助船只在保持航向的同时避免障碍物。

作文

In recent years, advancements in technology have revolutionized the way we navigate our world. One of the most significant developments in this field is the concept of range-range navigation, which refers to a method of determining the position of an object by measuring distances from multiple reference points. This technique has proven invaluable in various applications, including aviation, maritime operations, and even personal navigation systems.The principle behind range-range navigation is relatively straightforward. By knowing the distance from two or more known points, one can triangulate their position with remarkable accuracy. For instance, consider a scenario where a ship is navigating through open waters. If the ship can determine its distance from two lighthouses, it can pinpoint its location on a nautical chart. This method not only enhances safety but also improves efficiency in travel by reducing the chances of getting lost or running aground.In the realm of aviation, range-range navigation plays a crucial role in ensuring that aircraft can safely reach their destinations. Pilots rely on a variety of navigational aids, including VOR stations and GPS satellites, to calculate their position during flight. The ability to accurately assess their location helps pilots make informed decisions about routing, fuel management, and potential emergencies. Moreover, as air traffic continues to increase, the need for precise navigation becomes even more critical, making range-range navigation an essential component of modern aviation.Moreover, the rise of personal navigation devices and smartphone applications has made range-range navigation accessible to the general public. Applications like Google Maps and Waze utilize this technology to provide users with real-time directions and traffic updates. By measuring distances to various landmarks and using algorithms to analyze the data, these applications can offer the best routes, estimate arrival times, and even suggest alternative paths if there are delays. This democratization of navigation technology has transformed how individuals plan their journeys, making travel more convenient and efficient.However, it is important to acknowledge the limitations of range-range navigation. While it is a powerful tool, it relies heavily on the availability and accuracy of reference points. In remote areas where such points are scarce or in environments with obstructions, the effectiveness of this navigation method can be compromised. Additionally, technological failures, such as GPS signal loss, can hinder the ability to navigate accurately. Therefore, while range-range navigation is an impressive advancement, it is essential for users to remain vigilant and have backup navigation strategies in place.In conclusion, range-range navigation represents a significant leap forward in our ability to navigate the world around us. Its applications span across various fields, from maritime and aviation to everyday travel. As technology continues to evolve, we can expect further enhancements in navigation systems that will improve our ability to find our way. Understanding and mastering the concept of range-range navigation will undoubtedly empower individuals and professionals alike, enabling them to traverse both familiar and uncharted territories with confidence and precision.

近年来,科技的进步彻底改变了我们导航世界的方式。其中一个最重要的发展就是范围-范围导航的概念,这是一种通过测量与多个参考点的距离来确定物体位置的方法。这项技术在航空、海事操作,甚至个人导航系统等多个应用中都证明了其无价之宝。范围-范围导航背后的原理相对简单。通过知道与两个或多个已知点的距离,人们可以以极高的精度三角定位。例如,考虑一个船只在开放水域航行的场景。如果船只能够确定与两座灯塔的距离,它就可以在海图上准确定位。这种方法不仅提高了安全性,还通过减少迷路或搁浅的机会来提高旅行效率。在航空领域,范围-范围导航在确保飞机安全到达目的地方面发挥着至关重要的作用。飞行员依赖多种导航辅助设备,包括VOR电台和GPS卫星,在飞行过程中计算他们的位置。准确评估他们的位置有助于飞行员做出关于航线、燃料管理和潜在紧急情况的明智决策。此外,随着航空交通的不断增加,对精确导航的需求变得更加关键,使得范围-范围导航成为现代航空的重要组成部分。此外,个人导航设备和智能手机应用程序的兴起使得范围-范围导航对公众更加可及。像Google Maps和Waze这样的应用程序利用这项技术为用户提供实时方向和交通更新。通过测量与各种地标的距离并利用算法分析数据,这些应用程序可以提供最佳路线,估算到达时间,甚至在出现延误时建议替代路径。这种导航技术的民主化改变了个人规划旅程的方式,使旅行变得更加方便和高效。然而,值得承认的是,范围-范围导航也存在局限性。虽然这是一种强大的工具,但它在很大程度上依赖于参考点的可用性和准确性。在参考点稀缺或环境受阻的偏远地区,这种导航方法的有效性可能会受到影响。此外,技术故障,例如GPS信号丢失,可能会妨碍准确导航的能力。因此,尽管范围-范围导航是一项令人印象深刻的进步,但用户必须保持警惕,并制定备用导航策略。总之,范围-范围导航代表了我们在周围世界导航能力上的重大飞跃。它的应用跨越多个领域,从海事和航空到日常旅行。随着技术的不断发展,我们可以期待导航系统的进一步增强,这将改善我们寻找方向的能力。理解和掌握范围-范围导航的概念无疑将赋予个人和专业人士力量,使他们能够自信而精准地穿越熟悉和未知的领域。

相关单词

navigation

navigation详解:怎么读、什么意思、用法