combined echo-ranging echo-sounding

简明释义

回声测距与测深

英英释义

例句

1.The effectiveness of combined echo-ranging echo-sounding was evident in the detailed topographical maps produced.

联合回声测距回声探测的有效性在所制作的详细地形图中显而易见。

2.The research vessel utilized combined echo-ranging echo-sounding technology to map the ocean floor accurately.

研究船利用联合回声测距回声探测技术准确绘制海底地图。

3.The combined echo-ranging echo-sounding system provided real-time data for navigation in deep-sea explorations.

联合回声测距回声探测系统为深海探测提供了实时导航数据。

4.During the expedition, the scientists relied on combined echo-ranging echo-sounding to identify underwater geological structures.

在考察期间，科学家依靠联合回声测距回声探测来识别水下地质结构。

5.Using combined echo-ranging echo-sounding, the team discovered a previously unknown shipwreck.

通过使用联合回声测距回声探测，团队发现了一艘之前未知的沉船。

作文

In the field of marine exploration, technology plays a crucial role in understanding the depths of our oceans. One of the most advanced techniques used in this domain is known as combined echo-ranging echo-sounding. This method integrates two distinct but complementary technologies: echo-ranging and echo-sounding. Echo-ranging involves measuring the time it takes for sound waves to travel to an object and back, which helps determine the distance to that object. On the other hand, echo-sounding is primarily used to map the seafloor by sending sound pulses downward and analyzing the returning echoes. The combination of these two techniques enhances our ability to gather detailed information about underwater environments.The application of combined echo-ranging echo-sounding is particularly significant in various scientific and commercial fields. For instance, marine biologists utilize this technology to study fish populations and their habitats. By accurately mapping the ocean floor and identifying underwater structures, researchers can better understand the ecosystems that exist beneath the surface. Furthermore, this technique is invaluable for commercial fishing, as it allows fishermen to locate schools of fish more effectively, thereby optimizing their catch and minimizing waste.In addition to biological studies, combined echo-ranging echo-sounding is essential for geological research. Scientists use this method to investigate the composition and structure of the seabed, which can provide insights into natural resources such as oil and gas deposits. By understanding the geological formations present beneath the waves, researchers can make informed decisions about resource extraction while also assessing potential environmental impacts.Moreover, combined echo-ranging echo-sounding contributes significantly to maritime safety. By providing detailed maps of underwater topography, this technology helps in navigation and the planning of shipping routes. It allows vessels to avoid underwater hazards such as reefs and submerged rocks, reducing the risk of accidents at sea. This capability is especially important as global shipping traffic continues to increase, necessitating safer and more efficient navigation methods.The technological advancements in combined echo-ranging echo-sounding have evolved significantly over the years. Modern sonar systems are capable of producing high-resolution images of the underwater landscape, enabling scientists and researchers to visualize and analyze data more effectively. These innovations not only improve our understanding of marine environments but also enhance our ability to monitor changes due to climate change and human activity.In conclusion, the integration of echo-ranging and echo-sounding into the combined echo-ranging echo-sounding technique has transformed the way we explore and understand our oceans. Its applications span across various disciplines, from marine biology to geology and navigation, making it a vital tool for both scientific research and commercial activities. As technology continues to advance, we can expect even greater improvements in our ability to explore and protect the vast underwater world that remains largely unexplored. Understanding and mastering the concept of combined echo-ranging echo-sounding is essential for anyone interested in marine science and conservation, as it represents the forefront of our efforts to uncover the mysteries of the deep sea.

在海洋探索领域，技术在理解我们海洋深处的奥秘中发挥着至关重要的作用。其中一种最先进的技术被称为组合回声测距回声探测。这种方法结合了两种不同但互补的技术：回声测距和回声探测。回声测距涉及测量声波到达物体并返回所需的时间，这有助于确定与该物体的距离。另一方面，回声探测主要用于通过向下发送声脉冲并分析返回的回声来绘制海底地图。这两种技术的结合增强了我们获取水下环境详细信息的能力。组合回声测距回声探测的应用在各种科学和商业领域中尤为重要。例如，海洋生物学家利用这项技术研究鱼类种群及其栖息地。通过准确绘制海底地图并识别水下结构，研究人员可以更好地理解存在于水面之下的生态系统。此外，这项技术对于商业捕鱼也至关重要，因为它使渔民能够更有效地找到鱼群，从而优化捕捞并减少浪费。除了生物研究之外，组合回声测距回声探测对地质研究也至关重要。科学家们利用这种方法调查海床的组成和结构，这可以提供有关天然资源（如石油和天然气储备）的见解。通过了解波浪下的地质构造，研究人员可以就资源开采做出明智的决策，同时评估潜在的环境影响。此外，组合回声测距回声探测对海上安全也有重大贡献。通过提供水下地形的详细地图，这项技术有助于导航和航运路线的规划。它使船只能够避免水下危险，如珊瑚礁和淹没的岩石，从而降低海上事故的风险。随着全球航运交通的不断增加，这种能力显得尤为重要，迫切需要更安全、更高效的导航方法。近年来，组合回声测距回声探测的技术进步显著。现代声纳系统能够生成水下景观的高分辨率图像，使科学家和研究人员能够更有效地可视化和分析数据。这些创新不仅提高了我们对海洋环境的理解，还增强了我们监测气候变化和人类活动造成的变化的能力。总之，将回声测距和回声探测整合到组合回声测距回声探测技术中，改变了我们探索和理解海洋的方式。它的应用涵盖了从海洋生物学到地质学和导航的各个学科，使其成为科学研究和商业活动的重要工具。随着技术的不断进步，我们可以期待在探索和保护广阔的水下世界方面取得更大的进展。理解和掌握组合回声测距回声探测的概念，对于任何对海洋科学和保护感兴趣的人来说都是至关重要的，因为它代表了我们揭示深海奥秘的努力的前沿。