ship tended acoustic relay

简明释义

船舶水声测量系统

英英释义

例句

1.The ship tended acoustic relay was crucial for detecting changes in ocean temperature over time.

这个船舶维护的声学中继器对于检测海洋温度随时间变化至关重要。

2.The research vessel deployed a ship tended acoustic relay to monitor marine life in the area.

研究船部署了一个船舶维护的声学中继器来监测该地区的海洋生物。

3.The ship tended acoustic relay provided real-time communication between the underwater sensors and the surface ship.

这个船舶维护的声学中继器为水下传感器和水面船只之间提供了实时通信。

4.During the expedition, the scientists relied heavily on the ship tended acoustic relay for accurate positioning.

在探险期间，科学家们非常依赖这个船舶维护的声学中继器来获得准确的位置。

5.Using a ship tended acoustic relay, the team was able to collect data from deeper waters without retrieving the equipment.

利用一个船舶维护的声学中继器，团队能够收集来自深水区的数据，而无需回收设备。

作文

In the realm of maritime communication and navigation, the term ship tended acoustic relay plays a crucial role. This phrase refers to a system or device that uses sound waves to transmit information between ships and shore stations or among vessels at sea. The concept of acoustics in marine environments is fascinating due to the unique properties of sound underwater, where it travels faster and over longer distances than in air. Understanding the function of a ship tended acoustic relay can enhance our appreciation of modern maritime technology and its applications. Historically, ships have relied on various forms of communication, ranging from visual signals like flags to radio transmissions. However, as maritime activities expanded, the need for more reliable and efficient communication methods became apparent. This is where the ship tended acoustic relay comes into play. By utilizing underwater sound waves, vessels can communicate even in situations where traditional radio waves fail, such as in deep-sea environments or areas with heavy electromagnetic interference.The operation of a ship tended acoustic relay involves deploying underwater microphones, known as hydrophones, which capture sound waves generated by other vessels or shore stations. These sounds are then converted into electrical signals and transmitted back to the ship or to other locations. The relay system can also send messages back to the source, creating a two-way communication channel. This technology is particularly valuable for naval operations, scientific research, and commercial shipping, where coordination and safety are paramount.One of the significant advantages of using a ship tended acoustic relay is its ability to maintain communication over vast distances. Underwater sound can travel several kilometers, making it possible for ships to stay connected even when they are far apart. This capability is especially important in search and rescue operations, where timely communication can save lives. Additionally, the use of acoustic relays can facilitate data collection for marine research, allowing scientists to monitor oceanographic conditions and marine life without disturbing the natural environment.Despite its benefits, the implementation of a ship tended acoustic relay system is not without challenges. The underwater environment can be noisy, with various sounds from marine life, weather, and human activities potentially interfering with communication. Engineers continually work on improving the technology to filter out unwanted noise and enhance signal clarity. Furthermore, the installation and maintenance of such systems require specialized knowledge and equipment, making them more complex than traditional communication methods.In conclusion, the ship tended acoustic relay represents a significant advancement in maritime communication technology. Its ability to utilize sound waves for transmitting information underwater opens up new possibilities for safe and effective navigation and communication at sea. As we continue to explore and utilize our oceans, understanding and mastering systems like the ship tended acoustic relay will be essential for ensuring the safety and efficiency of maritime operations. The future of maritime technology looks promising, and innovations like these will undoubtedly play a critical role in shaping how we interact with our vast oceans.

在海洋通信和导航领域，短语船舶照管声学中继发挥着至关重要的作用。这个短语指的是一种使用声波在船只与岸站或海上船只之间传递信息的系统或设备。由于声波在水下传播速度更快、距离更远，因此海洋环境中的声学概念令人着迷。理解船舶照管声学中继的功能可以增强我们对现代海洋技术及其应用的欣赏。历史上，船只依赖各种形式的通信，从视觉信号如旗帜到无线电传输。然而，随着海洋活动的扩大，对更可靠和高效的通信方法的需求变得显而易见。这就是船舶照管声学中继发挥作用的地方。通过利用水下声波，船舶可以在传统无线电波失效的情况下进行通信，例如在深海环境或电磁干扰严重的区域。船舶照管声学中继的操作涉及部署水下麦克风，称为水听器，这些麦克风捕捉其他船只或岸站产生的声波。这些声音随后被转换为电信号并传回船只或其他位置。中继系统还可以将消息发送回源头，创建一个双向通信通道。这项技术对于海军行动、科学研究和商业航运尤为重要，因为协调和安全至关重要。使用船舶照管声学中继的一个重大优势是其能够在广阔的距离上保持通信。水下声波可以传播几公里，使得船只即使相距较远也能保持联系。这种能力在搜索和救援行动中尤为重要，及时的通信可以挽救生命。此外，使用声学中继可以促进海洋研究的数据收集，使科学家能够监测海洋条件和海洋生物，而不干扰自然环境。尽管有其好处，但实施船舶照管声学中继系统并非没有挑战。水下环境可能嘈杂，来自海洋生物、天气和人类活动的各种声音可能干扰通信。工程师们不断致力于改进技术，以过滤掉不必要的噪音并增强信号清晰度。此外，此类系统的安装和维护需要专业知识和设备，使其比传统通信方法更复杂。总之，船舶照管声学中继代表了海洋通信技术的一项重大进步。其利用声波在水下传递信息的能力为海上安全和有效导航及通信开辟了新的可能性。随着我们继续探索和利用海洋，理解和掌握像船舶照管声学中继这样的系统将对确保海洋作业的安全和效率至关重要。海洋技术的未来看起来充满希望，这些创新无疑将在塑造我们如何与浩瀚海洋互动方面发挥关键作用。