remote underwater manipulation

简明释义

遥控水下操作

英英释义

例句

1.The new robotic system allows for remote underwater manipulation 远程水下操作 of marine equipment without divers.

这个新的机器人系统允许在没有潜水员的情况下进行远程水下操作。

2.The military employs remote underwater manipulation 远程水下操作 technology for surveillance and reconnaissance missions.

军方使用远程水下操作技术进行监视和侦察任务。

3.With advancements in remote underwater manipulation 远程水下操作, we can now perform complex tasks at great depths.

随着远程水下操作的进步，我们现在可以在大深度执行复杂任务。

4.Engineers conducted tests on remote underwater manipulation 远程水下操作 to improve the efficiency of underwater repairs.

工程师们对远程水下操作进行了测试，以提高水下修理的效率。

5.Using remote underwater manipulation 远程水下操作, researchers can collect samples from deep-sea environments.

研究人员可以使用远程水下操作从深海环境中收集样本。

作文

In recent years, the field of robotics has seen significant advancements, particularly in the area of remote underwater manipulation. This term refers to the ability to control robotic devices from a distance to perform tasks underwater. These tasks can range from simple inspections to complex repairs on underwater infrastructure, such as oil rigs or pipelines. The significance of remote underwater manipulation cannot be overstated, as it plays a crucial role in various industries, including marine research, environmental monitoring, and underwater construction.One of the primary advantages of remote underwater manipulation is the ability to access areas that are dangerous or difficult for human divers. For instance, deep-sea environments can be perilous due to extreme pressure, low temperatures, and the presence of hazardous materials. Robotic systems equipped with advanced sensors and tools allow operators to carry out essential tasks without risking human life. This technology not only enhances safety but also increases efficiency in underwater operations.Moreover, remote underwater manipulation has been pivotal in scientific research. Marine biologists and oceanographers utilize remotely operated vehicles (ROVs) to explore the ocean depths, collect data, and study marine ecosystems. These robots can capture high-definition video footage, sample water and sediment, and even retrieve biological specimens. By using remote underwater manipulation, researchers can gather valuable information that would otherwise be impossible to obtain.The environmental implications of remote underwater manipulation are also noteworthy. As concerns about climate change and ocean health grow, the ability to monitor and assess underwater environments becomes increasingly important. Robotic systems can be deployed to track changes in coral reefs, monitor pollution levels, and assess the impact of human activities on marine life. This data is vital for developing strategies to protect and preserve our oceans.In addition to scientific and environmental applications, remote underwater manipulation is essential in the energy sector. Many offshore oil and gas operations rely on ROVs to inspect and maintain equipment located on the seabed. These robots can perform tasks such as tightening bolts, changing out valves, and conducting routine inspections, all while minimizing downtime and operational costs. The use of remote underwater manipulation in this context not only enhances productivity but also ensures compliance with safety regulations.As technology continues to evolve, the future of remote underwater manipulation looks promising. Innovations in artificial intelligence and machine learning are likely to enhance the capabilities of underwater robots, enabling them to perform more complex tasks autonomously. This shift could further reduce the need for human intervention and expand the scope of what can be achieved underwater.In conclusion, remote underwater manipulation represents a groundbreaking advancement in technology that has far-reaching implications across various fields. Its ability to safely and efficiently perform tasks underwater makes it an invaluable tool for researchers, environmentalists, and industry professionals alike. As we continue to explore and understand our oceans, the role of remote underwater manipulation will undoubtedly become even more critical in safeguarding our planet’s most vital resources.

近年来，机器人技术领域取得了显著进展，尤其是在远程水下操作这一领域。这个术语指的是能够远程控制机器人设备在水下执行任务的能力。这些任务可以从简单的检查到复杂的水下基础设施维修，例如石油钻井平台或管道。远程水下操作的重要性不容小觑，因为它在海洋研究、环境监测和水下建筑等多个行业中发挥着关键作用。远程水下操作的主要优势之一是能够进入对人类潜水员来说危险或困难的区域。例如，深海环境由于极端压力、低温和有害材料的存在可能是非常危险的。配备先进传感器和工具的机器人系统使操作员能够在不危及人类生命的情况下执行重要任务。这项技术不仅提高了安全性，还提高了水下作业的效率。此外，远程水下操作在科学研究中也具有重要意义。海洋生物学家和海洋学家利用遥控潜水器（ROV）探索海洋深处，收集数据并研究海洋生态系统。这些机器人可以捕捉高清录像，采集水和沉积物样本，甚至检索生物标本。通过使用远程水下操作，研究人员可以收集到原本无法获得的宝贵信息。远程水下操作的环境影响也值得注意。随着对气候变化和海洋健康的关注日益增加，监测和评估水下环境的能力变得愈发重要。可以部署机器人系统来跟踪珊瑚礁的变化、监测污染水平，并评估人类活动对海洋生物的影响。这些数据对于制定保护和维护我们海洋的策略至关重要。除了科学和环境应用外，远程水下操作在能源部门也是不可或缺的。许多海上石油和天然气作业依赖ROV来检查和维护位于海床上的设备。这些机器人可以执行紧固螺栓、更换阀门和进行例行检查等任务，同时最大限度地减少停机时间和运营成本。在这种情况下使用远程水下操作不仅提高了生产力，还确保遵守安全法规。随着技术的不断发展，远程水下操作的未来看起来充满希望。人工智能和机器学习的创新可能会增强水下机器人的能力，使其能够自主执行更复杂的任务。这一转变可能进一步减少对人类干预的需求，扩大水下可实现的范围。总之，远程水下操作代表了一项突破性的技术进步，在各个领域具有深远的影响。它在水下安全高效地执行任务的能力使其成为研究人员、环保人士和行业专业人士不可或缺的工具。随着我们继续探索和理解我们的海洋，远程水下操作的角色无疑将在保护我们星球最重要资源方面变得更加关键。