radio-range orientation

简明释义

无线电导航定向

英英释义

Radio-range orientation refers to a navigational method that utilizes radio signals from ground stations to determine the position and course of an aircraft or vehicle.

无线电范围定向是指一种导航方法,利用来自地面站的无线电信号来确定飞机或车辆的位置和航向。

例句

1.Using radio-range orientation, the drone was able to find its way back to the launch point.

通过使用无线电范围定位,无人机能够找到返回发射点的路径。

2.In maritime operations, radio-range orientation helps ships navigate through foggy conditions.

在海洋作业中,无线电范围定位帮助船只在雾天条件下导航。

3.The research team developed a method for improving radio-range orientation in urban environments.

研究小组开发了一种在城市环境中改善无线电范围定位的方法。

4.The GPS system was enhanced with radio-range orientation for better accuracy in rural areas.

GPS系统通过增加无线电范围定位功能,在乡村地区提高了准确性。

5.The new navigation system uses radio-range orientation to accurately determine the position of the aircraft.

新的导航系统使用无线电范围定位来准确确定飞机的位置。

作文

In the modern world, technology plays a crucial role in our daily lives, influencing how we navigate and interact with our environment. One significant aspect of this technological advancement is the concept of radio-range orientation, which refers to the method of determining one's position or direction using radio signals. This technique has transformed various fields, from aviation to personal navigation, making it easier for individuals and organizations to find their way in complex environments.The basic principle behind radio-range orientation involves the transmission of radio waves from a fixed point, such as a radio tower or satellite. These waves travel through the air and can be picked up by receivers that are equipped to detect them. By analyzing the time it takes for the signals to travel to the receiver and back, or by measuring the strength of the received signals, one can ascertain their location relative to the source of the transmission. This process is essential for accurate navigation, especially in areas where traditional methods, like maps and compasses, may fall short.One of the most notable applications of radio-range orientation is in aviation. Pilots rely on radio signals from ground stations to determine their position in the sky. This system, known as VOR (VHF Omnidirectional Range), allows pilots to navigate with precision, ensuring safe takeoffs and landings. The ability to receive real-time updates about their location helps pilots avoid hazards and maintain optimal flight paths, enhancing overall safety in the air.Moreover, radio-range orientation is not limited to aviation; it is also widely used in maritime navigation. Ships utilize similar technology to determine their position at sea, where landmarks are scarce and visibility can be limited. By employing systems like LORAN (Long Range Navigation), vessels can accurately chart their courses, avoiding dangerous waters and ensuring timely arrivals at their destinations.In addition to these traditional uses, the rise of smartphones has brought radio-range orientation into the hands of everyday users. GPS (Global Positioning System) technology, which relies on signals from satellites, has become an integral part of our lives. Whether we are driving to a new location, hiking in the wilderness, or simply exploring a new city, GPS enables us to navigate with ease. The convenience of having real-time location data at our fingertips has revolutionized how we approach travel and exploration.However, while radio-range orientation offers numerous benefits, it is essential to acknowledge its limitations. For instance, radio signals can be obstructed by buildings, mountains, or even weather conditions, which may lead to inaccuracies in positioning. Additionally, reliance on technology can create a dependency that may hinder our ability to navigate using traditional methods. Therefore, it is vital to strike a balance between utilizing advanced technologies and maintaining fundamental navigation skills.In conclusion, the concept of radio-range orientation has significantly impacted how we navigate our world. From aviation to personal devices, this technology has made it easier and safer for us to find our way. As we continue to advance technologically, it is crucial to understand both the advantages and limitations of these systems. By doing so, we can appreciate the role of radio-range orientation in our lives while remaining mindful of the importance of traditional navigation skills. Embracing this balance will ensure that we can confidently traverse our environments, regardless of the tools at our disposal.

在现代世界中,技术在我们的日常生活中扮演着至关重要的角色,影响着我们如何导航和与环境互动。这个技术进步的一个重要方面是无线电范围定向的概念,它指的是利用无线电信号确定一个人的位置或方向的方法。这项技术已经改变了多个领域,从航空到个人导航,使个人和组织在复杂环境中更容易找到方向。无线电范围定向的基本原理涉及从固定点(如无线电塔或卫星)发射无线电波。这些波通过空气传播,可以被配备有接收器的设备检测到。通过分析信号到达接收器并返回所需的时间,或者测量接收到的信号的强度,人们可以确定他们相对于传输源的位置。这个过程对准确导航至关重要,特别是在传统方法(如地图和指南针)可能不够有效的地方。无线电范围定向最显著的应用之一是在航空领域。飞行员依赖于来自地面站的无线电信号来确定他们在空中的位置。这个系统被称为VOR(超高频全向范围),使飞行员能够精确导航,确保安全起降。接收实时的位置信息更新帮助飞行员避免危险,并维持最佳飞行路径,从而提高了空中的整体安全性。此外,无线电范围定向不仅限于航空;它也广泛应用于海洋导航。船只利用类似的技术来确定它们在海上的位置,在那里地标稀少,能见度可能有限。通过使用像LORAN(长距离导航)这样的系统,船只可以准确绘制航线,避免危险水域,确保及时到达目的地。随着智能手机的普及,无线电范围定向也进入了普通用户的手中。GPS(全球定位系统)技术依赖于来自卫星的信号,已成为我们生活中不可或缺的一部分。无论我们是在开车前往新地点、在荒野中徒步旅行,还是简单地探索新城市,GPS都使我们能够轻松导航。实时位置信息随时可用的便利性彻底改变了我们对旅行和探索的看法。然而,尽管无线电范围定向提供了许多好处,但必须承认它的局限性。例如,无线电信号可能会被建筑物、山脉甚至天气条件所阻碍,这可能导致定位不准确。此外,对技术的依赖可能会造成一种依赖性,从而削弱我们使用传统方法进行导航的能力。因此,在利用先进技术和保持基本导航技能之间取得平衡是至关重要的。总之,无线电范围定向的概念对我们如何导航世界产生了重大影响。从航空到个人设备,这项技术使我们更容易、更安全地找到方向。随着我们技术的不断进步,理解这些系统的优点和局限性至关重要。这样,我们可以欣赏无线电范围定向在我们生活中的作用,同时保持对传统导航技能重要性的关注。拥抱这种平衡将确保我们能够自信地穿越环境,无论我们拥有何种工具。

相关单词

orientation

orientation详解:怎么读、什么意思、用法