sonar appendage

简明释义

声纳附体

英英释义

例句

1.The military relies on the sonar appendage for underwater reconnaissance missions.

军方依赖于声纳附属装置进行水下侦察任务。

2.With the sonar appendage, the research vessel could map the ocean floor more accurately.

借助于声纳附属装置，研究船能够更准确地绘制海底地图。

3.The sonar appendage helped locate the sunken ship after many years.

这个声纳附属装置帮助在多年后找到沉没的船只。

4.The submarine deployed its sonar appendage to detect enemy vessels in the area.

潜艇部署了其声纳附属装置以探测该区域的敌舰。

5.Using the sonar appendage, the team was able to identify various fish species in the region.

利用声纳附属装置，团队能够识别该地区的各种鱼类。

作文

In the world of marine exploration and underwater technology, the term sonar appendage refers to specialized devices or structures that extend from a vessel or underwater vehicle to enhance its sonar capabilities. These appendages are crucial for various applications, including navigation, mapping the seafloor, and detecting underwater objects. The importance of sonar appendage in modern oceanography cannot be overstated, as they provide researchers and engineers with the tools necessary to gather data from environments that are often challenging to access. One of the primary functions of a sonar appendage is to improve the quality of sonar signals. By positioning the sonar equipment away from the noise generated by the vessel itself, these appendages can capture clearer and more accurate readings. This is particularly important when conducting detailed surveys of marine habitats or searching for shipwrecks. The design of a sonar appendage can vary significantly depending on its intended use; some may be long and slender for deep-water applications, while others might be shorter and more robust for shallow waters. Moreover, sonar appendages can also be equipped with advanced technologies such as multi-beam sonar systems, which allow for a wider coverage area and higher resolution images of the underwater environment. This capability is invaluable for scientists studying marine ecosystems, as it enables them to map habitats and monitor changes over time. Additionally, the integration of sonar appendage technology with other sensors, such as cameras and environmental probes, creates a comprehensive data collection system that enhances our understanding of underwater life. The development of sonar appendages has also been driven by the needs of the military and commercial sectors. For instance, naval vessels utilize these appendages for surveillance and reconnaissance missions, allowing them to detect submarines and other underwater threats. In the commercial fishing industry, sonar appendages play a critical role in locating schools of fish, thereby increasing the efficiency and sustainability of fishing practices. As technology continues to advance, the future of sonar appendage design looks promising. Innovations such as autonomous underwater vehicles (AUVs) and remotely operated vehicles (ROVs) are increasingly incorporating sophisticated sonar appendages that allow for real-time data transmission and analysis. This not only enhances the effectiveness of underwater operations but also reduces the risks associated with human involvement in deep-sea exploration. In conclusion, the concept of sonar appendage is integral to the field of underwater exploration and technology. Its ability to enhance sonar capabilities and provide clearer data is essential for scientific research, military applications, and commercial endeavors alike. As we continue to explore the mysteries of the ocean, the role of sonar appendages will undoubtedly grow, paving the way for new discoveries and a greater understanding of our planet's aquatic environments.

在海洋探索和水下技术的世界中，术语声纳附属装置指的是从船只或水下载具延伸出来的专用设备或结构，以增强其声纳能力。这些附属装置对于各种应用至关重要，包括导航、海底测绘和探测水下物体。现代海洋学中声纳附属装置的重要性不容小觑，因为它们为研究人员和工程师提供了必要的工具，以获取来自通常难以接近的环境的数据。声纳附属装置的主要功能之一是提高声纳信号的质量。通过将声纳设备定位在远离船只自身产生的噪音的地方，这些附属装置可以捕捉到更清晰、更准确的读数。当进行详细的海洋栖息地调查或搜索沉船时，这一点尤其重要。声纳附属装置的设计可能因其预期用途而显著不同；有些可能细长，以适用于深水应用，而其他可能较短且更坚固，以适用于浅水区。此外，声纳附属装置还可以配备先进的技术，例如多波束声纳系统，这允许更广泛的覆盖区域和更高分辨率的水下环境图像。这种能力对研究海洋生态系统的科学家来说是无价的，因为它使他们能够绘制栖息地地图并监测随时间变化的情况。此外，将声纳附属装置技术与其他传感器（如相机和环境探头）集成，创建了一个全面的数据收集系统，增强了我们对水下生命的理解。声纳附属装置的发展也受到军事和商业部门需求的驱动。例如，海军舰艇利用这些附属装置进行监视和侦察任务，使它们能够探测潜艇和其他水下威胁。在商业渔业中，声纳附属装置在定位鱼群方面发挥着关键作用，从而提高了捕鱼实践的效率和可持续性。随着技术的不断进步，声纳附属装置设计的未来看起来非常光明。自主水下航行器（AUVs）和遥控水下航行器（ROVs）等创新正日益整合复杂的声纳附属装置，使实时数据传输和分析成为可能。这不仅提高了水下作业的有效性，还减少了与人类参与深海探索相关的风险。总之，声纳附属装置的概念是水下探索和技术领域不可或缺的一部分。它增强声纳能力和提供更清晰数据的能力对科学研究、军事应用和商业活动都至关重要。随着我们继续探索海洋的奥秘，声纳附属装置的角色无疑会不断增长，为新的发现和对我们星球水域环境的更大理解铺平道路。