automatic limiting level

简明释义

自动限制电平

英英释义

例句

1.In the new software, the automatic limiting level helps prevent overload on the server.

在新软件中，自动限制水平有助于防止服务器过载。

2.The automatic limiting level feature ensures that the temperature remains within acceptable ranges.

该自动限制水平功能确保温度保持在可接受范围内。

3.The system will activate the automatic limiting level when the pressure exceeds safe limits.

当压力超过安全限制时，系统将激活自动限制水平。

4.The automatic limiting level prevents the battery from overcharging and prolongs its life.

该自动限制水平防止电池过充，从而延长其使用寿命。

5.Users can customize the automatic limiting level for their specific needs in the application settings.

用户可以在应用程序设置中自定义自动限制水平以满足其特定需求。

作文

In today's rapidly evolving technological landscape, the concept of an automatic limiting level has become increasingly significant. This term refers to a predefined threshold within a system that automatically restricts certain actions or outputs to ensure safety, efficiency, and compliance with regulations. Understanding the implications and applications of an automatic limiting level can enhance our grasp of modern technology's role in various industries.To illustrate, consider the automotive industry, where the integration of advanced driver-assistance systems (ADAS) has revolutionized vehicle safety. These systems often employ an automatic limiting level to control speed and prevent collisions. For instance, adaptive cruise control utilizes sensors to maintain a safe distance from the vehicle ahead by automatically adjusting the car's speed. If the leading vehicle slows down, the system activates the automatic limiting level, ensuring that the following vehicle does not exceed a safe speed, thus preventing potential accidents.Similarly, in the field of manufacturing, machinery is increasingly being equipped with automatic limiting level features to enhance operational safety. For example, a robotic arm in a factory may have a built-in automatic limiting level that restricts its range of motion to prevent it from colliding with other equipment or workers. This not only protects human operators but also minimizes the risk of costly damages to the machinery itself.Moreover, the concept of an automatic limiting level extends to the realm of data management and cybersecurity. In information systems, an automatic limiting level can be implemented to control the volume of data processed or the number of requests made to a server. By setting such limits, organizations can prevent overloads and ensure that their systems remain functional and secure against potential cyber threats. This proactive approach is vital in maintaining the integrity of sensitive information and safeguarding against data breaches.In the context of environmental conservation, the automatic limiting level plays a crucial role as well. For instance, smart irrigation systems use sensors to monitor soil moisture levels and automatically adjust water usage based on predefined limits. This not only conserves water but also promotes sustainable agricultural practices by ensuring that crops receive the optimal amount of hydration without wastage.Furthermore, the implementation of automatic limiting levels can be seen in energy management systems, particularly in smart homes. These systems can automatically regulate energy consumption by setting limits on electricity usage during peak hours. By doing so, they help homeowners save on energy costs while contributing to a reduction in overall energy demand, which is beneficial for the environment.In conclusion, the significance of an automatic limiting level cannot be overstated. Its applications span across various fields, including automotive safety, manufacturing, data management, environmental conservation, and energy efficiency. As technology continues to advance, the incorporation of automatic limiting levels will likely become more prevalent, enhancing safety, efficiency, and sustainability in our everyday lives. Understanding this concept empowers us to appreciate the intricate mechanisms behind the technologies we often take for granted, ultimately leading to a safer and more efficient future.

在当今快速发展的技术环境中，‘自动限制水平’这一概念变得越来越重要。这个术语指的是系统内的一个预定义阈值，该阈值会自动限制某些操作或输出，以确保安全、效率和遵守法规。理解‘自动限制水平’的影响和应用，可以增强我们对现代技术在各个行业中作用的掌握。例如，考虑汽车行业，先进驾驶辅助系统（ADAS）的整合彻底改变了车辆安全。这些系统通常采用‘自动限制水平’来控制速度并防止碰撞。例如，自适应巡航控制利用传感器保持与前车的安全距离，通过自动调整汽车速度。如果前面的车辆减速，该系统会激活‘自动限制水平’，确保后面的车辆不超过安全速度，从而防止潜在的事故。同样，在制造领域，机械设备越来越多地配备有‘自动限制水平’功能，以增强操作安全性。例如，工厂中的机器人臂可能内置有‘自动限制水平’，限制其运动范围以防止与其他设备或工人发生碰撞。这不仅保护了人类操作员，还最大限度地减少了对机械本身造成昂贵损害的风险。此外，‘自动限制水平’的概念还扩展到数据管理和网络安全领域。在信息系统中，可以实施‘自动限制水平’来控制处理的数据量或对服务器的请求数量。通过设置这样的限制，组织可以防止超负荷，并确保其系统保持功能正常，安全抵御潜在的网络威胁。这种主动的方法对于维护敏感信息的完整性和防止数据泄露至关重要。在环境保护的背景下，‘自动限制水平’也起着至关重要的作用。例如，智能灌溉系统使用传感器监测土壤湿度，并根据预定义的限制自动调整用水量。这不仅节约了水资源，还通过确保作物获得最佳的水分而不浪费，促进了可持续农业实践。此外，‘自动限制水平’的实施在能源管理系统中也可以看到，特别是在智能家居中。这些系统可以通过在高峰时段设定电力使用限制来自动调节能源消耗。这样做不仅帮助房主节省能源成本，还为减少整体能源需求做出贡献，这对环境是有利的。总之，‘自动限制水平’的重要性不容小觑。它的应用遍及多个领域，包括汽车安全、制造业、数据管理、环境保护和能源效率。随着技术的不断进步，‘自动限制水平’的应用可能会变得更加普遍，从而提高我们日常生活中的安全性、效率和可持续性。理解这一概念使我们能够欣赏到我们常常视为理所当然的技术背后的复杂机制，最终引领我们走向一个更安全、更高效的未来。