electronically controlled manipulator

简明释义

电子控制机械手

英英释义

例句

1.The electronically controlled manipulator allows for remote operation in hazardous environments.

这个电子控制的操纵器允许在危险环境中进行远程操作。

2.Automated warehouses are increasingly using electronically controlled manipulators for inventory management.

自动化仓库越来越多地使用电子控制的操纵器进行库存管理。

3.In the lab, researchers rely on an electronically controlled manipulator to handle delicate samples.

在实验室，研究人员依靠电子控制的操纵器来处理精细样本。

4.The factory upgraded its assembly line with an electronically controlled manipulator to improve efficiency.

工厂用一个电子控制的操纵器升级了生产线，以提高效率。

5.Surgeons are using an electronically controlled manipulator for precise movements during robotic surgery.

外科医生在机器人手术中使用电子控制的操纵器进行精确操作。

作文

In the rapidly evolving world of technology, the term electronically controlled manipulator refers to a sophisticated device that utilizes electronic systems to control its movements and functions. These manipulators are often employed in various fields, including robotics, manufacturing, and even medical applications. The ability to precisely control an object or tool through electronic signals has revolutionized how tasks are performed, leading to increased efficiency and accuracy.One of the most significant advantages of an electronically controlled manipulator is its precision. In manufacturing environments, for instance, these devices can perform repetitive tasks with a level of accuracy that far surpasses human capabilities. This precision is crucial in industries such as electronics assembly, where tiny components must be placed with extreme care. By using sensors and feedback mechanisms, an electronically controlled manipulator can adjust its movements in real-time, ensuring that each action is executed flawlessly.Moreover, the versatility of electronically controlled manipulators allows them to adapt to various tasks. For example, in the medical field, surgical robots equipped with these manipulators can perform intricate procedures that require a steady hand and precise movements. Surgeons can control these robots from a distance, allowing for minimally invasive surgeries that reduce recovery times for patients. This application highlights not only the technical capabilities of electronically controlled manipulators but also their potential to improve patient outcomes.Another critical aspect of electronically controlled manipulators is their ability to work in hazardous environments. In situations where human safety is at risk, such as during the handling of toxic substances or in disaster recovery scenarios, these devices can take over dangerous tasks. For instance, bomb disposal units often use electronically controlled manipulators to safely defuse explosives without putting human lives in jeopardy. This capability underscores the importance of these devices in enhancing safety across various sectors.As technology continues to advance, the future of electronically controlled manipulators looks promising. Innovations in artificial intelligence (AI) and machine learning are expected to further enhance their functionality. For example, AI algorithms could enable these manipulators to learn from their experiences, improving their performance over time. This development could lead to even more sophisticated applications, such as autonomous robots that can navigate complex environments and make decisions based on real-time data.In conclusion, the term electronically controlled manipulator encompasses a wide range of devices that have transformed the way we approach tasks in various fields. Their precision, versatility, and ability to operate in hazardous conditions make them invaluable tools in modern society. As we look to the future, the integration of AI and other advanced technologies will likely expand the capabilities of these manipulators, paving the way for even more innovative applications. Ultimately, understanding and mastering the concept of electronically controlled manipulators is essential for anyone interested in the technological advancements shaping our world today.

在快速发展的科技世界中，术语电子控制的操纵器指的是一种复杂的设备，它利用电子系统来控制其运动和功能。这些操纵器通常应用于各个领域，包括机器人技术、制造业，甚至医疗应用。通过电子信号精确控制物体或工具的能力彻底改变了任务执行的方式，提高了效率和准确性。电子控制的操纵器最显著的优势之一是其精确度。例如，在制造环境中，这些设备可以以超越人类能力的精确度执行重复性任务。这种精确度在电子组装等行业至关重要，在这些行业中，微小组件必须极其小心地放置。通过使用传感器和反馈机制，电子控制的操纵器能够实时调整其运动，确保每一个动作都完美无缺。此外，电子控制的操纵器的多功能性使其能够适应各种任务。例如，在医疗领域，配备这些操纵器的外科机器人可以执行需要稳定手和精确动作的复杂程序。外科医生可以远程控制这些机器人，从而进行微创手术，减少患者的恢复时间。这一应用不仅突显了电子控制的操纵器的技术能力，也显示了它们改善患者结果的潜力。电子控制的操纵器的另一个关键方面是它们在危险环境中工作的能力。在人类安全面临风险的情况下，例如在处理有毒物质或灾难恢复场景中，这些设备可以接管危险任务。例如，炸弹处置单位通常使用电子控制的操纵器安全地拆除爆炸物，而不将人类生命置于危险之中。这种能力强调了这些设备在提高各个领域安全性方面的重要性。随着技术的不断进步，电子控制的操纵器的未来看起来充满希望。人工智能(AI)和机器学习的创新预计将进一步增强它们的功能。例如，AI算法可能使这些操纵器能够从经验中学习，随着时间的推移提高其性能。这一发展可能导致更复杂的应用，例如能够导航复杂环境并根据实时数据做出决策的自主机器人。总之，术语电子控制的操纵器涵盖了一系列已经改变我们在各个领域处理任务方式的设备。它们的精确性、多功能性和在危险条件下操作的能力使它们成为现代社会不可或缺的工具。展望未来，AI和其他先进技术的整合可能会扩展这些操纵器的能力，为更多创新应用铺平道路。最终，理解和掌握电子控制的操纵器的概念对于任何对塑造我们今天世界的技术进步感兴趣的人来说都是至关重要的。