integral control

简明释义

积分控制

英英释义

例句

1.The project manager emphasized the need for integral control to ensure project success.

项目经理强调了确保项目成功需要整体控制。

2.With integral control, the team can monitor performance metrics in real-time.

通过整体控制，团队可以实时监控性能指标。

3.The new software system provides integral control over all manufacturing processes.

新软件系统提供对所有制造过程的整体控制。

4.The car's navigation system features integral control that adjusts routes based on traffic conditions.

汽车的导航系统具有根据交通状况调整路线的整体控制功能。

5.In a smart home, integral control allows users to manage lighting and temperature from their phones.

在智能家居中，整体控制让用户可以通过手机管理照明和温度。

作文

In today's rapidly evolving technological landscape, the concept of integral control (整体控制) has become increasingly significant in various fields, including engineering, robotics, and systems management. This term refers to a comprehensive approach to managing and regulating systems, ensuring that all components work harmoniously to achieve desired outcomes. The importance of integral control cannot be overstated, as it plays a crucial role in enhancing efficiency, reliability, and performance across diverse applications.One of the primary benefits of integral control is its ability to provide a holistic view of system operations. Traditional control methods often focus on individual components, leading to suboptimal performance when these components are integrated into a larger system. By adopting an integral control strategy, engineers and managers can analyze the interactions between different parts of a system, allowing for better decision-making and resource allocation. For instance, in manufacturing, an integral control approach can optimize production lines by synchronizing machinery, reducing downtime, and minimizing waste.Moreover, integral control is essential in the realm of robotics, where multiple sensors and actuators must work together seamlessly. In autonomous vehicles, for example, the integration of various control systems—such as navigation, obstacle detection, and speed regulation—requires an integral control framework to ensure safety and efficiency. This interconnectedness highlights the need for advanced algorithms and technologies that can process vast amounts of data in real-time, enabling robots to respond appropriately to changing environments.Another critical aspect of integral control is its application in environmental management. As global challenges like climate change and resource depletion become more pressing, the need for sustainable practices has never been greater. An integral control approach in this context involves coordinating efforts across different sectors, such as energy production, waste management, and conservation. By integrating policies and practices, stakeholders can create more effective strategies for sustainable development, ultimately leading to improved outcomes for both the environment and society.Furthermore, the implementation of integral control requires a multidisciplinary approach, combining knowledge from various fields such as mathematics, computer science, and engineering. This collaboration fosters innovation and enables the development of new tools and techniques that enhance system performance. For instance, machine learning and artificial intelligence can be leveraged to improve integral control mechanisms, allowing for adaptive systems that can learn from their environments and optimize their operations over time.In conclusion, the significance of integral control (整体控制) in modern systems cannot be overlooked. Its ability to provide a comprehensive understanding of interrelated components leads to enhanced efficiency, reliability, and performance. As technology continues to advance, the need for integral control will only grow, necessitating ongoing research and development in this field. By embracing this holistic approach, industries can better navigate the complexities of today's world, ultimately paving the way for a more sustainable and efficient future.

在当今快速发展的技术环境中，integral control（整体控制）这一概念在工程、机器人和系统管理等多个领域变得越来越重要。这个术语指的是一种全面管理和调节系统的方法，确保所有组件协调工作，以实现预期的结果。integral control的重要性不容小觑，因为它在提高各类应用的效率、可靠性和性能方面起着至关重要的作用。integral control的主要好处之一是能够提供系统操作的整体视角。传统的控制方法通常专注于单个组件，这导致这些组件整合到更大系统中时的次优性能。通过采用integral control策略，工程师和管理者可以分析系统不同部分之间的相互作用，从而更好地进行决策和资源分配。例如，在制造业中，integral control方法可以通过同步机械设备来优化生产线，减少停机时间和浪费。此外，integral control在机器人领域也至关重要，其中多个传感器和执行器必须无缝协作。在自动驾驶汽车中，各种控制系统的整合——例如导航、障碍物检测和速度调节——需要一个integral control框架，以确保安全和效率。这种相互关联性突显了先进算法和技术的必要性，这些技术能够实时处理大量数据，使机器人能够适应不断变化的环境并做出适当反应。integral control的另一个关键方面是其在环境管理中的应用。随着气候变化和资源枯竭等全球性挑战变得愈加紧迫，实施可持续实践的需求从未如此强烈。在这种背景下，integral control方法涉及跨不同部门的协调努力，例如能源生产、废物管理和保护。通过整合政策和实践，利益相关者可以制定更有效的可持续发展战略，最终为环境和社会带来更好的结果。此外，实施integral control需要多学科的方法，结合数学、计算机科学和工程等多个领域的知识。这种合作促进了创新，使新工具和技术的开发得以增强系统性能。例如，机器学习和人工智能可以被利用来改进integral control机制，使系统能够适应环境并随着时间的推移优化其操作。总之，现代系统中integral control（整体控制）的重要性不容忽视。它提供的对相互关联组件的全面理解，导致了效率、可靠性和性能的提升。随着技术的不断进步，对integral control的需求只会增加，这需要在该领域持续进行研究和开发。通过接受这种整体方法，行业能够更好地应对当今世界的复杂性，最终为更加可持续和高效的未来铺平道路。