relative bearing transmitter

简明释义

舷角传感器

英英释义

例句

1.The ship's navigation system relies on the relative bearing transmitter to determine the angle of incoming vessels.

船只的导航系统依靠相对方位发射器来确定来船的角度。

2.The relative bearing transmitter provides crucial data for collision avoidance systems.

该相对方位发射器为防碰撞系统提供了重要数据。

3.The technician calibrated the relative bearing transmitter to ensure accurate readings.

技术人员对相对方位发射器进行了校准，以确保读数准确。

4.In naval operations, the relative bearing transmitter is essential for situational awareness.

在海军行动中，相对方位发射器对于态势感知至关重要。

5.Using a relative bearing transmitter, the pilot was able to accurately track the position of other aircraft.

使用相对方位发射器，飞行员能够准确追踪其他飞机的位置。

作文

In the world of navigation and maritime operations, understanding the tools and technologies available is crucial for safety and efficiency. One such important device is the relative bearing transmitter, which plays a significant role in aiding navigators to determine the position and direction of their vessels relative to other objects or landmarks. To fully grasp the importance of this device, we must first understand what relative bearing means. Relative bearing refers to the angle between the direction of the vessel and the direction to another object, measured clockwise from the vessel's heading. This concept is essential for navigators, as it allows them to make informed decisions based on their surroundings.The relative bearing transmitter works by providing real-time data about the relative bearings of various targets around a vessel. It typically uses radar technology to detect other ships, land masses, and navigational aids, transmitting this information back to the ship's bridge. This capability is invaluable, especially in crowded waterways or during adverse weather conditions, where visibility may be limited.One of the primary advantages of using a relative bearing transmitter is that it enhances situational awareness. By knowing the relative positions of nearby vessels, a navigator can make more informed decisions about course adjustments, speed changes, and other maneuvers necessary to avoid collisions or navigate safely through narrow passages. For instance, if a ship detects another vessel at a relative bearing of 30 degrees, the navigator can quickly assess whether they need to alter their course to maintain a safe distance.Moreover, the relative bearing transmitter serves as a critical tool in search and rescue operations. When a distress signal is received, having accurate relative bearing information allows rescue teams to locate the stranded vessel more efficiently. Time is of the essence in such situations, and the ability to pinpoint the location of a distress call can mean the difference between life and death.In addition to its practical applications, the relative bearing transmitter also contributes to the overall safety of maritime navigation. By reducing the likelihood of collisions and grounding incidents, it helps protect not only the vessels involved but also the environment. Maritime accidents can lead to significant ecological damage, and having advanced navigational tools like the relative bearing transmitter helps mitigate these risks.As technology continues to evolve, so does the functionality of the relative bearing transmitter. Modern versions are often integrated with other navigational systems, such as GPS and automatic identification systems (AIS), creating a comprehensive situational awareness platform for mariners. This integration allows for enhanced tracking of vessels and improved decision-making capabilities.In conclusion, the relative bearing transmitter is an indispensable tool in the realm of navigation, providing vital information that enhances safety and efficiency on the water. Its ability to relay real-time relative bearing data empowers navigators to make informed decisions, ultimately contributing to safer maritime operations. As we continue to advance our navigational technologies, the significance of devices like the relative bearing transmitter will only grow, ensuring that we can navigate our waters with confidence and precision.

在导航和海洋操作的世界中，理解可用的工具和技术对于安全和效率至关重要。其中一个重要设备是相对方位发射器，它在帮助导航员确定他们的船只相对于其他物体或地标的位置和方向方面发挥着重要作用。要充分理解该设备的重要性，我们必须首先了解什么是相对方位。相对方位是指船只方向与另一个物体方向之间的角度，从船只航向顺时针测量。这一概念对导航员至关重要，因为它使他们能够根据周围环境做出明智的决策。相对方位发射器通过提供有关船只周围各种目标的相对方位的实时数据来工作。它通常使用雷达技术来探测其他船只、陆地和导航辅助设施，并将这些信息传回船桥。在拥挤的水道或恶劣天气条件下，能见度可能有限，这种能力是无价的。使用相对方位发射器的主要优点之一是增强了情境意识。通过了解附近船只的相对位置，导航员可以更明智地决定航向调整、速度变化和避免碰撞或安全穿越狭窄通道所需的其他机动。例如，如果一艘船在相对方位为30度的位置探测到另一艘船，导航员可以迅速评估是否需要改变航向以保持安全距离。此外，相对方位发射器在搜救行动中也作为关键工具。当收到求救信号时，准确的相对方位信息使救援队能够更有效地找到遇险船只。在这种情况下，时间至关重要，能够准确定位求救信号的位置可能意味着生与死之间的差异。除了实际应用外，相对方位发射器还为海洋导航的整体安全性做出了贡献。通过减少碰撞和搁浅事件的可能性，它有助于保护不仅是涉及的船只，还有环境。海洋事故可能导致重大的生态损害，而拥有像相对方位发射器这样的先进导航工具有助于减轻这些风险。随着技术的不断发展，相对方位发射器的功能也在不断增强。现代版本通常与其他导航系统（如GPS和自动识别系统（AIS））集成，创建一个全面的情境意识平台供海员使用。这种集成允许更好的船只跟踪和改进决策能力。总之，相对方位发射器是导航领域中不可或缺的工具，提供重要信息以增强水上安全和效率。它能够传递实时的相对方位数据，使导航员能够做出明智的决策，最终有助于更安全的海洋操作。随着我们继续推进导航技术，像相对方位发射器这样的设备的重要性只会增加，确保我们能够自信而精准地航行我们的水域。