ship tended acoustic relay

简明释义

船用水声测距导航系统

英英释义

例句

1.Engineers installed a ship tended acoustic relay to enhance the detection of marine life.

工程师安装了一个船舶维护的声学中继器以增强对海洋生物的探测。

2.The ship tended acoustic relay was crucial for mapping the ocean floor during the expedition.

在探险期间，船舶维护的声学中继器对于绘制海底地图至关重要。

3.During the mission, the team relied on a ship tended acoustic relay for real-time communication with the submersible.

在任务期间，团队依靠一个船舶维护的声学中继器与潜水器进行实时通信。

4.The ship tended acoustic relay helped improve the accuracy of sonar readings in deep waters.

这个船舶维护的声学中继器帮助提高了深水区声纳读数的准确性。

5.The research vessel used a ship tended acoustic relay to gather data on underwater currents.

研究船使用了一个船舶维护的声学中继器来收集水下洋流的数据。

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 used on ships for transmitting sound signals over water, particularly in conditions where visual communication is not possible. The ship tended acoustic relay system utilizes underwater microphones, known as hydrophones, and speakers to facilitate communication between vessels or between a ship and a shore station. This technology is essential for ensuring safety and coordination during naval operations, especially in areas with heavy traffic or adverse weather conditions.The importance of the ship tended acoustic relay cannot be overstated. In many situations, ships may be required to communicate with one another while navigating through fog, storms, or other visibility-reducing circumstances. The ability to send and receive acoustic signals allows for effective maneuvering and coordination, reducing the risk of collisions and ensuring that vessels remain on their intended courses.Moreover, the ship tended acoustic relay system is not only vital for communication but also for underwater exploration and research. Scientists and researchers use this technology to study marine life and underwater environments by sending sound waves into the ocean and analyzing the echoes that return. This process, known as sonar mapping, provides valuable data about the ocean floor, including the topography and the presence of various species.Another significant aspect of the ship tended acoustic relay is its application in military operations. Navies around the world rely on this technology for submarine communication, allowing submarines to remain submerged while still being able to communicate with surface ships or command centers. This capability is essential for strategic operations and maintaining the element of surprise against potential adversaries.Despite its advantages, the ship tended acoustic relay system also faces challenges. For instance, environmental factors such as background noise from marine traffic, weather conditions, and underwater geological features can interfere with the clarity and effectiveness of acoustic signals. Additionally, the technology requires careful calibration and maintenance to ensure optimal performance.As we look toward the future, advancements in technology will likely enhance the capabilities of the ship tended acoustic relay. Innovations in digital signal processing and machine learning could lead to more sophisticated systems that can filter out noise and improve communication reliability. Furthermore, integrating this technology with satellite communication systems may provide a comprehensive solution for maritime communication, ensuring that ships can stay connected regardless of their location or environmental conditions.In conclusion, the ship tended acoustic relay is a fundamental component of modern maritime operations, facilitating communication and enhancing safety on the water. Its applications extend beyond mere communication, playing a vital role in scientific research and military strategy. As technology evolves, the potential for improved acoustic relay systems will continue to grow, further solidifying their importance in the maritime industry.

在海洋通信和导航领域，术语船舶倾向声学中继发挥着至关重要的作用。这个短语指的是一种用于船舶在水上发送声音信号的系统，特别是在视觉通信不可能的情况下。船舶倾向声学中继系统利用水下麦克风（称为水听器）和扬声器来促进船只之间或船只与岸站之间的通信。这项技术对于确保海军行动中的安全和协调至关重要，尤其是在交通繁忙或恶劣天气条件下。船舶倾向声学中继的重要性不容小觑。在许多情况下，船只可能需要在雾、风暴或其他能见度降低的情况下相互通信。发送和接收声学信号的能力使有效的操控和协调成为可能，减少了碰撞的风险，确保船只保持在预定航线上。此外，船舶倾向声学中继系统不仅对通信至关重要，还对水下探索和研究具有重要意义。科学家和研究人员利用这项技术通过向海洋发送声波并分析返回的回声来研究海洋生物和水下环境。这个过程被称为声纳测绘，提供了关于海底的宝贵数据，包括地形和各种物种的存在。船舶倾向声学中继的另一个重要方面是其在军事行动中的应用。世界各国海军依赖这一技术进行潜艇通信，使潜艇能够在水下保持潜伏，同时仍然能够与水面舰艇或指挥中心进行通信。这一能力对于战略行动和保持对潜在对手的突然性至关重要。尽管有其优势，船舶倾向声学中继系统也面临挑战。例如，海洋交通、天气条件和水下地质特征等环境因素可能会干扰声学信号的清晰度和有效性。此外，该技术需要仔细的校准和维护，以确保最佳性能。展望未来，技术的进步可能会增强船舶倾向声学中继的能力。数字信号处理和机器学习的创新可能会导致更复杂的系统，可以过滤噪声并提高通信的可靠性。此外，将这项技术与卫星通信系统结合可能为海洋通信提供全面解决方案，确保船只无论在何处或环境条件如何都能保持连接。总之，船舶倾向声学中继是现代海洋作业的基本组成部分，促进了通信并增强了水上的安全性。它的应用超出了简单的通信，在科学研究和军事战略中发挥着至关重要的作用。随着技术的发展，改进的声学中继系统的潜力将继续增长，进一步巩固其在海洋行业中的重要性。