automatic station keeping

简明释义

自动定位

英英释义

例句

1.The new satellite features advanced automatic station keeping, ensuring it stays in its designated orbit without manual intervention.

这颗新卫星配备了先进的自动保持位置功能，确保它在指定轨道上无需人工干预。

2.Engineers are testing the automatic station keeping capabilities of the drone for precision agricultural applications.

工程师正在测试无人机的自动保持位置能力，以用于精准农业应用。

3.The underwater robot uses automatic station keeping to remain stationary while conducting research on the ocean floor.

这款水下机器人使用自动保持位置技术在海底进行研究时保持静止。

4.The marine vessel is equipped with a system for automatic station keeping to stabilize its position during harsh weather.

该海洋船只配备了自动保持位置系统，以在恶劣天气中稳定其位置。

5.With the implementation of automatic station keeping, the spacecraft can maintain its position even in challenging conditions.

通过实施自动保持位置，航天器即使在恶劣条件下也能保持其位置。

作文

In recent years, the advancement of technology has led to significant improvements in various fields, particularly in robotics and automation. One of the most notable developments is the concept of automatic station keeping, which refers to the ability of a system to maintain its position and orientation without manual intervention. This technology is particularly crucial in maritime applications, where vessels need to maintain their positions against currents, wind, and other environmental factors. The implementation of automatic station keeping systems has revolutionized the way ships operate, allowing for greater efficiency and safety.The principle behind automatic station keeping involves the use of sensors, GPS, and advanced algorithms to constantly monitor the vessel's position. These systems can automatically adjust the ship's thrusters and propellers to counteract any external forces acting on it. For instance, in offshore drilling operations, maintaining a stable position is essential for the safety of the crew and the integrity of the equipment. With automatic station keeping, operators can focus on other critical tasks, knowing that the vessel will remain in its designated location.Moreover, automatic station keeping is not limited to maritime applications. It is also being integrated into various autonomous vehicles, including drones and underwater robots. In these cases, automatic station keeping enables the vehicle to hover in place or navigate complex environments with precision. This capability is especially important in search and rescue missions, where maintaining a specific position can mean the difference between success and failure.The benefits of automatic station keeping extend beyond operational efficiency. By reducing the need for manual control, this technology minimizes human error, which is often a significant factor in accidents and mishaps at sea. Furthermore, as the demand for sustainable practices grows, automatic station keeping contributes to fuel efficiency by optimizing the vessel's movement and reducing unnecessary maneuvers.Despite its advantages, the implementation of automatic station keeping systems does come with challenges. The technology requires substantial investment in both hardware and software, and the complexity of the systems can lead to maintenance difficulties. Additionally, while automatic station keeping significantly reduces the risk of human error, it does not eliminate it entirely. Operators must remain vigilant and ready to intervene if the system encounters unforeseen circumstances.Looking ahead, the future of automatic station keeping appears promising. As technology continues to advance, we can expect even more sophisticated systems that incorporate artificial intelligence and machine learning. These developments could further enhance the reliability and accuracy of automatic station keeping, making it an indispensable tool in various industries.In conclusion, automatic station keeping represents a significant leap forward in automation technology. Its ability to maintain position and orientation without manual intervention is transforming maritime operations and paving the way for advancements in other fields. While challenges remain, the potential benefits of automatic station keeping are too significant to ignore, and its continued development will undoubtedly play a crucial role in the future of autonomous systems.

近年来，技术的进步在各个领域带来了显著的改善，尤其是在机器人和自动化方面。其中一个最显著的发展是自动驻留保持的概念，它指的是系统在没有人工干预的情况下保持其位置和方向的能力。这项技术在海洋应用中尤为重要，因为船只需要在潮流、风和其他环境因素的影响下保持其位置。自动驻留保持系统的实施彻底改变了船舶的操作方式，使其更加高效和安全。自动驻留保持的原理涉及使用传感器、GPS和先进算法来不断监测船舶的位置。这些系统可以自动调整船舶的推进器和螺旋桨，以抵消作用于其上的外部力量。例如，在海上钻井作业中，保持稳定的位置对船员的安全和设备的完整性至关重要。通过自动驻留保持，操作员可以专注于其他关键任务，而无需担心船舶会偏离指定位置。此外，自动驻留保持不仅限于海洋应用。它还被集成到各种自主车辆中，包括无人机和水下机器人。在这些情况下，自动驻留保持使得车辆能够精确地悬停在某个位置或导航复杂环境。这种能力在搜索和救援任务中尤为重要，因为保持特定位置可能意味着成功与失败之间的差异。自动驻留保持的好处不仅限于操作效率。通过减少对手动控制的需求，这项技术最小化了人为错误的发生，而人为错误往往是海上事故和意外事件的重要因素。此外，随着对可持续实践需求的增加，自动驻留保持通过优化船舶的运动并减少不必要的操控，促进了燃料效率。尽管有其优势，自动驻留保持系统的实施确实面临挑战。该技术需要在硬件和软件方面进行大量投资，并且系统的复杂性可能导致维护困难。此外，虽然自动驻留保持显著降低了人为错误的风险，但并不完全消除。操作员仍需保持警惕，并准备在系统遇到不可预见情况时进行干预。展望未来，自动驻留保持的前景看起来很有希望。随着技术的不断进步，我们可以期待更为复杂的系统，这些系统将结合人工智能和机器学习。这些发展可能进一步增强自动驻留保持的可靠性和准确性，使其成为各行业中不可或缺的工具。总之，自动驻留保持代表了自动化技术的重大飞跃。其在没有人工干预的情况下保持位置和方向的能力正在改变海洋操作，并为其他领域的进步铺平道路。尽管挑战依然存在，但自动驻留保持的潜在好处不容忽视，其持续发展无疑将在自主系统的未来中发挥关键作用。