manual override system

简明释义

人工越控装置

英英释义

例句

1.During the software update, the manual override system 手动覆盖系统 can be activated to revert to the previous settings.

在软件更新期间，可以激活手动覆盖系统以恢复到先前的设置。

2.The aircraft is equipped with a manual override system 手动覆盖系统 for pilots to regain control during an emergency.

飞机配备了手动覆盖系统，以便在紧急情况下让飞行员重新掌控。

3.In automated warehouses, a manual override system 手动覆盖系统 is essential for handling unexpected situations.

在自动化仓库中，手动覆盖系统对于处理意外情况至关重要。

4.The smart home features a manual override system 手动覆盖系统 that lets users control lighting even when the app fails.

智能家居配备了手动覆盖系统，即使应用程序失效，用户也能控制照明。

5.In case of a power failure, the factory's manual override system 手动覆盖系统 allows operators to control machinery directly.

在停电的情况下，工厂的手动覆盖系统允许操作员直接控制机器。

作文

In today's technologically advanced world, we often rely on automated systems to perform various tasks efficiently. However, there are instances where human intervention becomes essential, especially in critical situations. This is where the concept of a manual override system comes into play. A manual override system is designed to allow a human operator to take control of an automated process, overriding its automatic functions when necessary. This capability is crucial in several fields, including aviation, manufacturing, and healthcare.For instance, in aviation, aircraft are equipped with sophisticated autopilot systems that can navigate and control the plane during flight. However, pilots are trained to use a manual override system to regain control in emergencies, such as bad weather or technical malfunctions. By engaging the manual override system, pilots can ensure the safety of passengers and crew by making real-time decisions based on their expertise and situational awareness.Similarly, in manufacturing, automated assembly lines enhance productivity by performing repetitive tasks with precision. Yet, if a malfunction occurs or an unexpected situation arises, workers must be able to utilize a manual override system to halt the machinery or adjust operations. This not only prevents potential accidents but also allows for quick corrections to maintain production quality.In the healthcare sector, the importance of a manual override system is particularly evident in medical devices such as ventilators or infusion pumps. These machines are programmed to deliver specific treatments automatically. However, healthcare professionals must have the ability to override these settings manually to respond to patients’ unique needs or emergencies. The manual override system ensures that clinicians can provide tailored care, which is vital for patient safety and effective treatment outcomes.The implementation of a manual override system raises important considerations regarding training and safety protocols. Operators must be adequately trained not only to understand how to engage the manual override system but also to recognize when it is appropriate to do so. Clear guidelines should be established to prevent misuse or over-reliance on manual interventions, which could lead to errors or accidents.Moreover, the design of a manual override system should prioritize user-friendliness. Complex systems can create confusion during high-pressure situations, potentially leading to delays in response time. Therefore, intuitive interfaces and straightforward procedures are essential for ensuring that operators can quickly and effectively utilize the manual override system when needed.In conclusion, while automation offers numerous benefits in efficiency and productivity, the role of a manual override system remains indispensable. It empowers human operators to take command when necessary, ensuring safety and adaptability across various industries. As technology continues to evolve, the integration of effective manual override systems will be crucial in maintaining a balance between automation and human oversight. Ultimately, this balance will enhance operational reliability and safeguard against unforeseen challenges, reinforcing the importance of human judgment in an increasingly automated world.

在当今技术先进的世界中，我们常常依赖自动化系统高效地执行各种任务。然而，在关键情况下，人为干预变得至关重要。这就是手动覆盖系统概念发挥作用的地方。手动覆盖系统旨在允许人工操作员在必要时接管自动化过程，覆盖其自动功能。这种能力在航空、制造和医疗等多个领域至关重要。例如，在航空领域，飞机配备了复杂的自动驾驶系统，可以在飞行过程中导航和控制飞机。然而，飞行员接受过培训，可以在紧急情况下使用手动覆盖系统重新获得控制，例如恶劣天气或技术故障。通过启用手动覆盖系统，飞行员可以确保乘客和机组人员的安全，通过他们的专业知识和情境意识做出实时决策。同样，在制造业中，自动化装配线通过精确执行重复任务来提高生产力。然而，如果发生故障或出现意外情况，工人必须能够利用手动覆盖系统停止机器或调整操作。这不仅可以防止潜在事故，还可以迅速纠正以保持生产质量。在医疗行业，手动覆盖系统的重要性在呼吸机或输液泵等医疗设备中尤为明显。这些机器被编程为自动交付特定治疗。然而，医疗专业人员必须能够手动覆盖这些设置，以应对患者的独特需求或紧急情况。手动覆盖系统确保临床医生能够提供量身定制的护理，这对于患者安全和有效的治疗结果至关重要。实施手动覆盖系统引发了有关培训和安全协议的重要考虑。操作员必须经过充分培训，不仅要了解如何启用手动覆盖系统，还要认识到何时适合这样做。应建立明确的指南，以防止滥用或过度依赖手动干预，这可能导致错误或事故。此外，手动覆盖系统的设计应优先考虑用户友好性。复杂的系统可能在高压情况下造成困惑，从而可能导致响应时间延迟。因此，直观的界面和简单的程序对于确保操作员能够在需要时快速有效地利用手动覆盖系统至关重要。总之，尽管自动化在效率和生产力方面提供了许多好处，但手动覆盖系统的作用仍然不可或缺。它使人工操作员能够在必要时掌控局面，确保各个行业的安全性和适应性。随着技术的不断发展，有效的手动覆盖系统的集成对于维持自动化与人工监督之间的平衡至关重要。最终，这种平衡将增强操作的可靠性，并保护免受不可预见的挑战，强化在人类日益自动化的世界中人类判断的重要性。