mode change-over disturbance

简明释义

模转换干扰

英英释义

例句

1.The factory experienced a significant mode change-over disturbance 模式切换干扰 during the transition from production to maintenance.

工厂在从生产转向维护的过程中经历了显著的模式切换干扰。

2.Engineers are investigating the mode change-over disturbance 模式切换干扰 that occurred during the last test run.

工程师正在调查上次测试运行中发生的模式切换干扰。

3.To minimize mode change-over disturbance 模式切换干扰, we implemented a new training program for our operators.

为了最小化模式切换干扰，我们为操作员实施了一项新的培训计划。

4.We need to document every instance of mode change-over disturbance 模式切换干扰 to improve our processes.

我们需要记录每一个模式切换干扰的实例，以改善我们的流程。

5.The software update caused a brief mode change-over disturbance 模式切换干扰, leading to temporary system downtime.

软件更新导致了短暂的模式切换干扰，导致系统暂时停机。

作文

In today's rapidly evolving technological landscape, understanding various operational phenomena is crucial for both engineers and users. One such phenomenon is the mode change-over disturbance, which refers to the disruptions that occur during the transition from one operational mode to another in a system. This concept is particularly relevant in fields such as automation, robotics, and control systems, where machines often need to switch between different modes to perform various tasks efficiently.When a machine operates in a specific mode, it is optimized for certain functions, whether it be manufacturing, transporting, or processing data. However, when there is a need to change to another mode—perhaps due to a shift in production requirements or an update in software—the system can experience a mode change-over disturbance. This disturbance can manifest in several ways, including temporary loss of functionality, decreased performance, or even complete system failure if not managed properly.To illustrate this further, consider a robotic assembly line that is programmed to switch from assembling one type of product to another. During this transition, the robot must recalibrate its tools, adjust its speed, and possibly even change its movement patterns. If the mode change-over disturbance is not accounted for, the robot may misalign parts, leading to defective products and costly downtime.Managing these disturbances requires a comprehensive understanding of the system's dynamics and the implementation of effective control strategies. Engineers often utilize simulations and models to predict how a system will behave during mode changes. By anticipating potential disturbances, they can design systems that are more resilient and capable of handling transitions smoothly.Moreover, the importance of training personnel cannot be overstated. Workers who are familiar with the implications of mode change-over disturbance are better equipped to respond to issues that arise during transitions. They can take preventative measures, such as conducting routine maintenance checks, ensuring that all components are functioning optimally before a mode change, and being prepared to troubleshoot problems as they occur.In conclusion, as technology continues to advance, the concept of mode change-over disturbance will remain a critical area of focus for engineers and operators alike. Understanding this phenomenon not only helps in minimizing disruptions but also enhances overall system efficiency and reliability. By investing in training, simulation, and robust design practices, industries can mitigate the risks associated with mode changes and ensure smooth operations in an increasingly complex technological environment.

在当今快速发展的技术环境中，理解各种操作现象对工程师和用户来说至关重要。其中一个现象是模式切换干扰，指的是系统在从一种操作模式切换到另一种模式时所发生的干扰。这个概念在自动化、机器人和控制系统等领域尤为相关，因为机器通常需要在不同模式之间切换，以高效地执行各种任务。当一台机器在特定模式下操作时，它是针对某些功能进行优化的，无论是制造、运输还是处理数据。然而，当需要切换到另一种模式时——可能是由于生产需求的变化或软件的更新——系统可能会经历模式切换干扰。这种干扰可能以多种方式表现出来，包括暂时失去功能、性能下降，甚至在管理不当的情况下导致系统完全故障。为了进一步说明这一点，考虑一个编程为切换从组装一种产品到另一种产品的机器人装配线。在这个过渡过程中，机器人必须重新校准工具、调整速度，甚至可能需要改变运动模式。如果不考虑模式切换干扰，机器人可能会错位零件，导致产品缺陷和昂贵的停机时间。管理这些干扰需要全面了解系统的动态，并实施有效的控制策略。工程师们通常利用仿真和模型来预测系统在模式变化期间的行为。通过预见潜在的干扰，他们可以设计出更具弹性并能够平稳处理过渡的系统。此外，培训人员的重要性也不容忽视。熟悉模式切换干扰影响的工人能够更好地应对过渡期间出现的问题。他们可以采取预防措施，例如定期维护检查，确保在模式变化之前所有组件都正常工作，并准备好在问题发生时进行故障排除。总之，随着技术的不断进步，模式切换干扰的概念将继续成为工程师和操作员关注的关键领域。理解这一现象不仅有助于最小化干扰，还能提高整体系统效率和可靠性。通过投资于培训、仿真和稳健的设计实践，行业可以减轻与模式变化相关的风险，并确保在日益复杂的技术环境中顺利运营。