auto-manual system
简明释义
半自动式半自动系统
英英释义
例句
1.In the factory, the auto-manual system helps operators switch from automated processes to manual interventions when needed.
在工厂中,自动手动系统帮助操作员在需要时从自动化流程切换到手动干预。
2.The coffee machine's auto-manual system allows users to brew coffee automatically or customize their brew manually.
咖啡机的自动手动系统允许用户自动冲泡咖啡或手动自定义冲泡。
3.The car's auto-manual system provides a seamless transition between driving modes for enhanced control.
汽车的自动手动系统提供了驾驶模式之间的无缝切换,以增强控制力。
4.Teachers can use the auto-manual system in the classroom to adjust the level of student engagement.
教师可以在课堂上使用自动手动系统来调整学生参与的程度。
5.The new washing machine features an auto-manual system that allows users to choose between automatic settings and manual controls.
这款新洗衣机具有一个自动手动系统,允许用户在自动设置和手动控制之间进行选择。
作文
In today's fast-paced world, technology plays a crucial role in how we manage our daily tasks and responsibilities. One of the most interesting developments in this realm is the concept of an auto-manual system, which combines automated processes with manual control. This hybrid approach allows for greater flexibility and efficiency, catering to the dynamic needs of users. The auto-manual system can be seen in various applications, from manufacturing to personal productivity tools.To understand the significance of an auto-manual system, we must first examine its components. Automation refers to the use of technology to perform tasks with minimal human intervention. This can include anything from robotic assembly lines in factories to software that automatically sorts emails. On the other hand, manual control involves human oversight and decision-making. It requires individuals to engage directly with processes, ensuring that everything runs smoothly and addressing any issues that may arise.The integration of these two systems creates a powerful synergy. For instance, in a manufacturing setting, an auto-manual system might automate the assembly of parts while allowing operators to intervene when necessary. This not only speeds up production but also improves quality control, as human workers can quickly address any defects or inefficiencies that the automated system might overlook.In everyday life, we encounter auto-manual systems in various forms. Consider smart home technologies, where devices like thermostats and lights can be programmed to operate automatically based on user preferences. However, homeowners still have the option to manually adjust settings whenever they choose. This balance between automation and manual control empowers users, providing them with convenience while retaining the ability to customize their environment.Moreover, the auto-manual system fosters innovation by allowing for continuous improvement. When users can manually intervene in automated processes, they can experiment with different approaches and identify areas for enhancement. This feedback loop is essential for refining systems and making them more effective over time.However, there are challenges associated with implementing an auto-manual system. One major concern is the potential for over-reliance on automation, which can lead to skill degradation among workers. If individuals become too accustomed to automated processes, they may struggle to perform tasks manually when needed. Therefore, it is crucial to strike a balance, ensuring that employees receive proper training and maintain their skills alongside the adoption of new technologies.In conclusion, the auto-manual system represents a significant advancement in how we approach tasks and responsibilities. By merging automation with manual control, we can achieve greater efficiency, flexibility, and innovation. As technology continues to evolve, understanding and embracing this hybrid approach will be essential for success in both personal and professional realms. The future lies in our ability to leverage the strengths of both automation and manual intervention, creating systems that work best for us.
在当今快节奏的世界中,技术在我们管理日常任务和责任方面发挥着至关重要的作用。其中一个最有趣的发展是“自动-手动系统”的概念,它将自动化过程与手动控制相结合。这种混合方法允许更大的灵活性和效率,满足用户动态需求。“自动-手动系统”可以在各种应用中看到,从制造业到个人生产力工具。要理解“自动-手动系统”的重要性,我们必须首先检查其组成部分。自动化是指使用技术以最小的人为干预来执行任务。这可能包括从工厂中的机器人装配线到自动分类电子邮件的软件。另一方面,手动控制涉及人类的监督和决策。这要求个人直接参与过程,确保一切顺利进行,并解决可能出现的任何问题。这两种系统的整合创造了强大的协同效应。例如,在制造环境中,“自动-手动系统”可能会自动化零件的组装,同时允许操作员在必要时进行干预。这不仅加快了生产速度,还改善了质量控制,因为人工工人可以快速处理自动系统可能忽视的缺陷或低效。在日常生活中,我们以各种形式遇到“自动-手动系统”。考虑智能家居技术,其中恒温器和灯具等设备可以根据用户偏好进行自动操作。然而,房主仍然可以随时手动调整设置。这种自动化与手动控制之间的平衡赋予用户权力,为他们提供便利,同时保留自定义环境的能力。此外,“自动-手动系统”通过允许用户在自动化过程中手动干预来促进创新。当用户能够手动干预自动化过程时,他们可以尝试不同的方法并识别改进的领域。这个反馈循环对于优化系统并随着时间的推移使其更有效至关重要。然而,实施“自动-手动系统”也面临挑战。一个主要问题是对自动化的过度依赖,这可能导致工人技能的退化。如果个人过于习惯于自动化过程,他们可能会在需要时难以手动执行任务。因此,至关重要的是要找到平衡,确保员工接受适当的培训,并在采用新技术的同时保持他们的技能。总之,“自动-手动系统”代表了我们处理任务和责任方式的重要进步。通过将自动化与手动控制相结合,我们可以实现更高的效率、灵活性和创新。随着技术的不断发展,理解和接受这种混合方法对于个人和职业领域的成功至关重要。未来在于我们利用自动化和手动干预的优势,创建最适合我们的系统。
