automatic supervisory control

简明释义

自动监督控制;

英英释义

例句

1.The factory implemented automatic supervisory control to optimize production efficiency.

工厂实施了自动监控控制以优化生产效率。

2.The automatic supervisory control system reduces human error in complex operations.

该自动监控控制系统减少了复杂操作中的人为错误。

3.In a smart grid, automatic supervisory control helps balance energy supply and demand.

在智能电网中，自动监控控制有助于平衡能源供需。

4.With automatic supervisory control, the system can detect anomalies in real-time.

通过自动监控控制，系统能够实时检测异常情况。

5.The new software features automatic supervisory control for better management of resources.

新软件具有自动监控控制功能，以更好地管理资源。

作文

In the modern world, automation has become an integral part of various industries. One significant aspect of this automation is automatic supervisory control, which refers to a system that manages and regulates processes with minimal human intervention. This technology is widely used in manufacturing, energy management, and transportation systems, among others. The primary goal of automatic supervisory control is to enhance efficiency, improve safety, and ensure optimal performance in complex systems.The concept of automatic supervisory control can be understood through its components and functionalities. At its core, this system utilizes sensors and algorithms to monitor the status of operations continuously. For instance, in a manufacturing plant, sensors can detect the temperature, pressure, and flow rates of materials. These data points are then analyzed by the supervisory control system to make real-time adjustments, ensuring that production processes remain within desired parameters.One of the key benefits of automatic supervisory control is its ability to reduce human error. In traditional settings, operators may miscalculate or overlook critical information, leading to inefficiencies or even accidents. By implementing automated control systems, organizations can minimize these risks. For example, in chemical processing plants, precise control of reactions is crucial. An automatic supervisory control system can maintain optimal conditions, preventing hazardous situations and ensuring product quality.Moreover, automatic supervisory control contributes to energy efficiency. In power plants, for instance, these systems can optimize the generation and distribution of electricity based on real-time demand. By analyzing consumption patterns and adjusting output accordingly, they help reduce waste and lower operational costs. This capability not only benefits the companies involved but also supports broader environmental goals by minimizing carbon footprints.Another critical application of automatic supervisory control is in transportation systems. With the rise of smart cities, traffic management has become increasingly complex. Automated supervisory control systems can analyze traffic flow data from various sources, such as cameras and sensors, to optimize signal timings and reduce congestion. This results in smoother traffic movement, shorter travel times, and decreased emissions from idling vehicles.However, the implementation of automatic supervisory control is not without challenges. One major concern is the reliance on technology, which can lead to vulnerabilities. Cybersecurity threats pose a significant risk to automated systems, as hackers may exploit weaknesses to disrupt operations. Therefore, it is essential for organizations to invest in robust security measures to protect their supervisory control systems.In conclusion, automatic supervisory control represents a pivotal advancement in automation technology. By enhancing efficiency, improving safety, and optimizing resource usage, it plays a vital role in modern industrial applications. As industries continue to evolve, the importance of automatic supervisory control will only grow, necessitating ongoing research and development to address challenges and maximize its potential. Ultimately, embracing this technology can lead to a more sustainable and efficient future across various sectors.

在现代社会，自动化已成为各个行业不可或缺的一部分。这个自动化的一个重要方面是自动监督控制，它指的是一种以最小的人为干预来管理和调节过程的系统。这项技术广泛应用于制造业、能源管理和交通运输系统等领域。自动监督控制的主要目标是提高效率、改善安全性并确保复杂系统的最佳性能。自动监督控制的概念可以通过其组成部分和功能来理解。在其核心，这个系统利用传感器和算法持续监控操作的状态。例如，在制造工厂中，传感器可以检测材料的温度、压力和流量。这些数据点随后由监督控制系统分析，以实时调整，确保生产过程保持在期望参数内。自动监督控制的一个关键好处是能够减少人为错误。在传统环境中，操作员可能会计算错误或忽视关键信息，从而导致低效率甚至事故。通过实施自动控制系统，组织可以最小化这些风险。例如，在化学加工厂中，反应的精确控制至关重要。自动监督控制系统可以维持最佳条件，防止危险情况并确保产品质量。此外，自动监督控制有助于提高能源效率。例如，在发电厂中，这些系统可以根据实时需求优化电力的生成和分配。通过分析消费模式并相应调整输出，它们帮助减少浪费并降低运营成本。这种能力不仅对相关公司有利，也支持更广泛的环境目标，通过最小化碳足迹来实现。自动监督控制的另一个关键应用是在交通系统中。随着智能城市的兴起，交通管理变得越来越复杂。自动监督控制系统可以分析来自各种来源（如摄像头和传感器）的交通流量数据，以优化信号时机并减少拥堵。这导致交通流动更加顺畅，旅行时间更短，车辆怠速排放减少。然而，实施自动监督控制并非没有挑战。一个主要的担忧是对技术的依赖，这可能导致脆弱性。网络安全威胁对自动化系统构成重大风险，因为黑客可能利用弱点来破坏操作。因此，组织必须投资于强大的安全措施来保护其监督控制系统。总之，自动监督控制代表了自动化技术的一个重要进步。通过提高效率、改善安全性和优化资源使用，它在现代工业应用中发挥着至关重要的作用。随着各行业的不断发展，自动监督控制的重要性只会增加，这需要持续的研究和开发来应对挑战并最大化其潜力。最终，拥抱这项技术可以为各个领域带来更可持续和高效的未来。