ship tended acoustic relay

简明释义

船舶水声测距导航系统

英英释义

例句

1.The deployment of the ship tended acoustic relay improved our ability to track submarines.

部署船舶维护的声学中继器提高了我们追踪潜艇的能力。

2.During the naval exercise, the ship tended acoustic relay played a crucial role in communication between ships.

在海军演习中，船舶维护的声学中继器在舰艇之间的通信中发挥了关键作用。

3.The scientists installed a ship tended acoustic relay to gather data on marine life activity.

科学家安装了一个船舶维护的声学中继器以收集海洋生物活动的数据。

4.Using the ship tended acoustic relay, we were able to detect distant whale songs.

通过使用船舶维护的声学中继器，我们能够探测到遥远的鲸鱼歌唱。

5.The research vessel utilized the ship tended acoustic relay to monitor underwater sounds during its expedition.

研究船利用了船舶维护的声学中继器在其考察期间监测水下声音。

作文

In the realm of maritime technology, communication plays a crucial role in ensuring safety and efficiency at sea. One of the innovative solutions that have emerged is the concept of a ship tended acoustic relay, which serves as a vital tool for underwater communication. This technology utilizes sound waves to transmit information between vessels and underwater sensors, enabling real-time data exchange even in the most challenging environments.The ship tended acoustic relay system consists of a floating buoy equipped with acoustic transducers that can send and receive sound signals. These buoys are strategically deployed in areas where traditional radio communication may fail due to water depths or geographical obstacles. By using sound waves, which travel much better in water than radio waves, this system ensures that ships can maintain contact with each other and with land-based operations.One of the key advantages of the ship tended acoustic relay is its ability to facilitate communication in deep-sea exploration and research. Scientists studying marine life or underwater geology rely heavily on this technology to gather data from remote locations. For instance, research vessels can use these relays to communicate with autonomous underwater vehicles (AUVs) that collect samples and perform surveys. The real-time data transmission allows researchers to make informed decisions quickly, enhancing the overall effectiveness of their missions.Moreover, the ship tended acoustic relay also plays a significant role in naval operations. In military contexts, maintaining secure and reliable communication is paramount. The ability to transmit messages without relying on satellite or radio frequencies makes this technology particularly valuable. It can be used for coordinating maneuvers during exercises or operations, ensuring that all units are synchronized and aware of each other's positions.Despite its numerous benefits, the ship tended acoustic relay system does face challenges. Environmental factors such as background noise from marine life or human activities can interfere with signal clarity. Additionally, the deployment and maintenance of these buoys require careful planning and resources. However, advancements in technology continue to improve the reliability and efficiency of acoustic relays, making them an indispensable asset in maritime operations.In conclusion, the ship tended acoustic relay represents a remarkable advancement in underwater communication technology. Its ability to facilitate real-time data exchange in challenging environments has made it an essential tool for researchers and naval operators alike. As technology continues to evolve, we can expect further enhancements in the capabilities and applications of acoustic relay systems, ultimately leading to safer and more efficient maritime operations.

在海事技术领域，通信在确保海上安全和效率方面起着至关重要的作用。其中一个新兴的创新解决方案是船舶照管声学中继的概念，它作为水下通信的重要工具。该技术利用声波在船只与水下传感器之间传输信息，使实时数据交换成为可能，即使在最具挑战性的环境中也能实现。船舶照管声学中继系统由配备声学换能器的浮动浮标组成，这些换能器能够发送和接收声信号。这些浮标被战略性地部署在传统无线电通信可能因水深或地理障碍而失败的区域。通过使用声波，这种波在水中的传播效果远胜于无线电波，因此该系统确保船只可以彼此保持联系，并与陆基操作进行沟通。船舶照管声学中继的一个主要优势是它能够促进深海探索和研究中的通信。研究海洋生物或水下地质的科学家在很大程度上依赖这一技术，从偏远地点收集数据。例如，研究船可以使用这些中继与收集样本和进行调查的自主水下航行器（AUV）进行通信。实时数据传输使研究人员能够快速做出明智的决策，从而提高其任务的整体有效性。此外，船舶照管声学中继在海军行动中也发挥着重要作用。在军事背景下，保持安全可靠的通信至关重要。能够在不依赖卫星或无线电频率的情况下传输消息，使这项技术特别有价值。它可以用于协调演习或行动中的机动，确保所有单位都同步并了解彼此的位置。尽管有许多好处，船舶照管声学中继系统仍面临挑战。环境因素如海洋生物或人类活动产生的背景噪音可能会干扰信号清晰度。此外，这些浮标的部署和维护需要仔细规划和资源。然而，技术的进步不断提高声学中继的可靠性和效率，使其成为海事操作中不可或缺的资产。总之，船舶照管声学中继代表了水下通信技术的显著进步。它在具有挑战性的环境中促进实时数据交换的能力，使其成为研究人员和海军操作员的基本工具。随着技术的不断发展，我们可以期待声学中继系统的能力和应用进一步增强，最终导致更安全、更高效的海事操作。