automatic sounding buoy

简明释义

自动音响浮标

英英释义

例句

1.Maritime navigation has improved significantly with the use of automatic sounding buoys.

随着使用自动测深浮标，海事导航得到了显著改善。

2.An automatic sounding buoy can provide real-time information about water depth.

一个自动测深浮标可以提供水深的实时信息。

3.The researchers deployed an automatic sounding buoy to collect data on ocean temperature.

研究人员部署了一个自动测深浮标来收集海洋温度数据。

4.During the storm, the automatic sounding buoy continued to transmit valuable data.

在暴风雨期间，自动测深浮标继续传输宝贵的数据。

5.The data from the automatic sounding buoy helped scientists understand tidal patterns.

来自自动测深浮标的数据帮助科学家理解潮汐模式。

作文

In the vast expanse of the ocean, where the depths remain a mystery and the currents flow with unseen power, scientists and researchers rely on various technologies to gather data about marine environments. One such technology that has proven invaluable is the automatic sounding buoy. This sophisticated device plays a crucial role in oceanographic studies, providing real-time data about water depth, temperature, and other critical parameters that help us understand the dynamics of our oceans.The automatic sounding buoy is designed to float on the surface of the water while continuously measuring the depth beneath it. Equipped with advanced sensors and satellite communication systems, it can transmit data back to researchers onshore, allowing for immediate analysis and decision-making. This capability is vital for various applications, including navigation, fishing, and environmental monitoring.One of the primary advantages of using an automatic sounding buoy is its ability to operate autonomously. Unlike traditional methods of measuring water depth, which often require human intervention and can be time-consuming, these buoys can function independently for extended periods. This autonomy not only reduces labor costs but also minimizes the risk associated with sending personnel into potentially hazardous marine environments.The data collected by the automatic sounding buoy is not only useful for immediate applications but also contributes to long-term research efforts. Scientists can analyze trends over time, such as changes in sea level or the effects of climate change on marine ecosystems. By deploying multiple buoys across different locations, researchers can create a comprehensive picture of oceanic conditions, leading to better-informed policies and conservation strategies.Furthermore, the automatic sounding buoy can be equipped with additional sensors to measure various environmental factors, such as salinity, pH levels, and even biological activity. This versatility makes it an essential tool for interdisciplinary research, bridging the gap between oceanography, biology, and environmental science. For instance, understanding how temperature variations impact marine life can inform fisheries management and conservation efforts.As technology continues to advance, the capabilities of the automatic sounding buoy are likely to expand even further. Innovations in sensor technology, data transmission, and artificial intelligence could enhance the accuracy and efficiency of these devices. Imagine a future where buoys can not only collect data but also analyze it in real-time, providing immediate insights into changing ocean conditions.In conclusion, the automatic sounding buoy represents a significant advancement in our ability to monitor and understand the ocean. Its autonomous operation, coupled with the ability to gather diverse data, makes it an invaluable asset for researchers and policymakers alike. As we face increasing challenges related to climate change and marine resource management, tools like the automatic sounding buoy will be essential in helping us navigate the complexities of our oceans and ensure their health for future generations.

在广阔的海洋中，深度仍然是一个谜，水流以看不见的力量流动，科学家和研究人员依靠各种技术收集有关海洋环境的数据。其中一种被证明极为宝贵的技术就是自动测深浮标。这一复杂的设备在海洋学研究中发挥着至关重要的作用，提供关于水深、温度以及其他关键参数的实时数据，帮助我们理解海洋的动态。自动测深浮标设计用于漂浮在水面上，同时持续测量其下方的深度。它配备了先进的传感器和卫星通信系统，可以将数据传输回岸上的研究人员，从而实现即时分析和决策。这种能力对于导航、捕鱼和环境监测等各种应用至关重要。使用自动测深浮标的主要优势之一是它能够自主操作。与传统的水深测量方法相比，后者通常需要人工干预且耗时较长，这些浮标可以独立工作很长时间。这种自主性不仅降低了劳动力成本，还最小化了将人员送入潜在危险的海洋环境中所带来的风险。自动测深浮标收集的数据不仅对即时应用有用，还为长期研究工作做出了贡献。科学家可以分析海平面变化或气候变化对海洋生态系统影响等趋势。通过在不同地点部署多个浮标，研究人员可以创建全面的海洋条件图景，从而制定更为明智的政策和保护策略。此外，自动测深浮标还可以配备额外的传感器，以测量各种环境因素，如盐度、pH值甚至生物活动。这种多功能性使其成为跨学科研究的重要工具，弥合了海洋学、生物学和环境科学之间的差距。例如，了解温度变化如何影响海洋生物可以为渔业管理和保护工作提供信息。随着技术的不断进步，自动测深浮标的能力可能会进一步扩展。传感器技术、数据传输和人工智能的创新可能增强这些设备的准确性和效率。想象一下未来，浮标不仅可以收集数据，还可以实时分析数据，提供有关海洋条件变化的即时见解。总之，自动测深浮标代表了我们监测和理解海洋能力的重大进步。它的自主操作，加上收集多样数据的能力，使其成为研究人员和政策制定者不可或缺的资产。随着我们面临与气候变化和海洋资源管理相关的日益严峻的挑战，像自动测深浮标这样的工具将在帮助我们应对海洋复杂性和确保其健康以造福未来几代人方面发挥重要作用。