visual radio range

简明释义

光学显示的无线电测向器

英英释义

例句

1.The ship's captain relied on the visual radio range 视距无线电范围 to navigate safely through the fog.

船长依靠视距无线电范围安全地穿越雾霭。

2.In mountainous areas, the visual radio range 视距无线电范围 can be significantly reduced due to terrain.

在山区，由于地形的影响，视距无线电范围可能会大幅缩小。

3.During the training session, we learned how to effectively communicate within the visual radio range 视距无线电范围.

在培训课程中，我们学习了如何在视距无线电范围内有效沟通。

4.Before takeoff, the crew checked if the destination was within the visual radio range 视距无线电范围.

起飞前，机组人员检查目的地是否在视距无线电范围内。

5.The pilot confirmed that the aircraft was within the visual radio range 视距无线电范围 for landing.

飞行员确认飞机在着陆时处于视距无线电范围。

作文

The concept of visual radio range is crucial in the field of aviation and maritime navigation. It refers to the distance over which a radio signal can be effectively received and interpreted by a user, typically in visual line-of-sight conditions. Understanding this range is essential for ensuring safety and efficiency in communication between aircraft, ships, and ground control. In essence, the visual radio range determines how far signals can travel without significant interference, allowing operators to maintain contact and receive vital information during their operations.In aviation, the visual radio range plays a significant role in air traffic control. Pilots rely on radio communications to receive instructions, weather updates, and navigational aids from control towers. When flying under visual flight rules (VFR), pilots are expected to maintain visual contact with the ground and other aircraft, making the effective range of their radio equipment critical. If a pilot is flying in an area where the visual radio range is limited due to obstacles or atmospheric conditions, they may encounter difficulties in receiving important communications, which could lead to dangerous situations.Similarly, in maritime navigation, the visual radio range is vital for ensuring safe passage through busy shipping lanes. Ships use radio communications to coordinate with one another and with coastal stations. The effective range of these communications can be affected by various factors such as terrain, weather, and the type of equipment being used. For instance, if a vessel is operating in foggy conditions, the visual radio range may be significantly reduced, making it imperative for the crew to rely on radar and other navigational aids to avoid collisions.Moreover, the visual radio range is not only about distance but also about clarity and reliability of the signal. Factors such as frequency, power output, and environmental conditions can all impact how well a signal is transmitted and received. Operators must be aware of these variables to ensure that they can communicate effectively. For example, higher frequency signals may provide better clarity but have a shorter range, while lower frequencies might travel further but with less clarity. Understanding these dynamics is essential for optimizing communication systems in both aviation and maritime contexts.In conclusion, the visual radio range is a fundamental aspect of communication in aviation and maritime navigation. It encompasses the distance over which radio signals can be effectively transmitted and received, impacting safety and operational efficiency. By understanding the factors that influence the visual radio range, pilots and mariners can make informed decisions that enhance their situational awareness and ensure safer journeys. As technology continues to advance, improving the visual radio range will remain a priority for enhancing communication systems in these critical fields.

“视觉无线电范围”这一概念在航空和海洋导航领域至关重要。它指的是在视觉直视条件下，用户能够有效接收和解读无线电信号的距离。理解这个范围对于确保航空器、船只与地面控制之间的通信安全和效率至关重要。实质上，“视觉无线电范围”决定了信号在没有显著干扰的情况下可以传播多远，使操作员能够保持联系并在操作过程中接收重要信息。在航空领域，“视觉无线电范围”在空中交通管制中发挥着重要作用。飞行员依赖无线电通信接收来自控制塔的指令、天气更新和导航辅助。当飞行处于视觉飞行规则（VFR）下时，飞行员需要与地面和其他飞机保持视觉接触，这使得他们无线电设备的有效范围显得尤为关键。如果飞行员在障碍物或大气条件限制的区域飞行，“视觉无线电范围”受到限制，他们可能会在接收重要通信时遇到困难，这可能导致危险情况。同样，在海洋导航中，“视觉无线电范围”对于确保安全通过繁忙的航道至关重要。船只使用无线电通信相互协调以及与沿海站点进行联系。这些通信的有效范围可能受到地形、天气和所用设备类型等各种因素的影响。例如，如果一艘船在雾天操作，“视觉无线电范围”可能会显著缩短，这使得船员必须依靠雷达和其他导航辅助工具来避免碰撞。此外，“视觉无线电范围”不仅仅是关于距离，还涉及信号的清晰度和可靠性。频率、功率输出和环境条件等因素都可能影响信号的传输和接收效果。操作员必须意识到这些变量，以确保他们能够有效通信。例如，高频信号可能提供更好的清晰度，但其范围较短，而低频信号可能传播得更远，但清晰度较差。理解这些动态对于优化航空和海洋环境中的通信系统至关重要。总之，“视觉无线电范围”是航空和海洋导航通信的一个基本方面。它涵盖了无线电信号能够有效传输和接收的距离，影响着安全性和操作效率。通过了解影响“视觉无线电范围”的因素，飞行员和水手可以做出明智的决策，增强他们的态势感知，确保更安全的旅程。随着技术的不断进步，提升“视觉无线电范围”将继续成为改善这些关键领域通信系统的优先事项。