combined control system

简明释义

联合控制系统

英英释义

例句

1.The combined control system 综合控制系统 helps monitor environmental conditions in real-time.

该综合控制系统 combined control system帮助实时监测环境条件。

2.The factory implemented a combined control system 综合控制系统 to enhance production efficiency.

工厂实施了一个综合控制系统 combined control system以提高生产效率。

3.The combined control system 综合控制系统 in the smart home manages lighting, security, and HVAC.

智能家居中的综合控制系统 combined control system管理照明、安全和暖通空调。

4.Engineers are developing a combined control system 综合控制系统 for autonomous vehicles.

工程师正在为自主车辆开发一个综合控制系统 combined control system。

5.Our new combined control system 综合控制系统 allows for better integration of various machinery.

我们的新综合控制系统 combined control system允许更好地整合各种机器。

作文

In the realm of modern engineering and technology, the concept of a combined control system (组合控制系统) has emerged as a pivotal innovation. This system integrates various control mechanisms to enhance efficiency and performance in numerous applications, ranging from industrial automation to aerospace engineering. The idea behind a combined control system is to merge multiple control strategies into a single framework that can address complex operational challenges more effectively than traditional methods.One of the most significant advantages of a combined control system is its ability to optimize performance by utilizing the strengths of different control techniques. For instance, in industrial settings, a combined control system might integrate proportional-integral-derivative (PID) control with fuzzy logic control. The PID controller is excellent for maintaining set points and ensuring stability, while fuzzy logic can handle uncertainties and nonlinearities in the system. By combining these two approaches, engineers can create a more robust control system that adapts to varying conditions while maintaining high levels of precision.Moreover, a combined control system can significantly reduce the complexity of managing multiple subsystems. In large-scale operations, such as power plants or manufacturing facilities, different processes often require separate control systems. This fragmentation can lead to inefficiencies and increased operational costs. However, by implementing a combined control system, operators can streamline their processes, allowing for better coordination and communication among different components. This holistic approach not only simplifies management but also enhances overall system reliability.The application of combined control systems extends beyond industrial environments. In the field of robotics, for example, a robot may utilize a combined control system to manage its movements and interactions with the environment. By integrating feedback control with advanced algorithms, robots can navigate complex terrains, avoid obstacles, and perform tasks with minimal human intervention. This level of sophistication is essential for developing autonomous systems that can operate safely and efficiently in unpredictable settings.Additionally, the advent of smart technologies and the Internet of Things (IoT) has further propelled the relevance of combined control systems. As devices become increasingly interconnected, the need for cohesive control strategies that can manage multiple inputs and outputs simultaneously becomes paramount. A combined control system enables seamless communication between devices, allowing for real-time data analysis and decision-making. This capability is crucial for applications such as smart homes, where various systems—lighting, heating, security—must work together harmoniously to provide optimal user experiences.In conclusion, the combined control system (组合控制系统) represents a significant advancement in control engineering, offering enhanced performance, reduced complexity, and improved adaptability across various fields. As technology continues to evolve, the importance of integrating diverse control strategies will only grow, making combined control systems an essential component of future innovations. Embracing this approach will not only lead to more efficient operations but also pave the way for groundbreaking developments in automation and intelligent systems.

在现代工程和技术领域，组合控制系统的概念已成为一种关键创新。该系统集成了各种控制机制，以提高在众多应用中的效率和性能，从工业自动化到航空航天工程。组合控制系统背后的理念是将多种控制策略合并为一个单一框架，以更有效地解决复杂的操作挑战。组合控制系统的一个显著优势是它能够通过利用不同控制技术的优势来优化性能。例如，在工业环境中，组合控制系统可能将比例-积分-微分（PID）控制与模糊逻辑控制相结合。PID控制器非常适合维持设定点并确保稳定性，而模糊逻辑则可以处理系统中的不确定性和非线性。通过结合这两种方法，工程师可以创建一个更强大的控制系统，使其能够在变化的条件下适应，同时保持高水平的精度。此外，组合控制系统还可以显著减少管理多个子系统的复杂性。在大型操作中，例如发电厂或制造设施，不同的过程通常需要单独的控制系统。这种碎片化可能导致效率低下和运营成本增加。然而，通过实施组合控制系统，操作员可以简化其流程，从而改善不同组件之间的协调和沟通。这种整体方法不仅简化了管理，还增强了整体系统的可靠性。组合控制系统的应用超越了工业环境。在机器人技术领域，例如，机器人可能利用组合控制系统来管理其运动和与环境的互动。通过将反馈控制与先进算法相结合，机器人可以导航复杂地形，避免障碍，并以最小的人为干预执行任务。这种复杂程度对于开发能够在不可预测环境中安全高效运行的自主系统至关重要。此外，智能技术和物联网（IoT）的出现进一步推动了组合控制系统的相关性。随着设备之间的互联互通，对能够同时管理多个输入和输出的统一控制策略的需求变得至关重要。组合控制系统使设备之间能够无缝通信，从而实现实时数据分析和决策。这种能力对智能家居等应用至关重要，其中各种系统——照明、供暖、安全——必须和谐地协同工作，以提供最佳的用户体验。总之，组合控制系统（组合控制系统）代表了控制工程领域的重大进展，提供了跨各个领域的增强性能、降低复杂性和提高适应性的优势。随着技术的不断发展，整合多样化控制策略的重要性只会增加，这使得组合控制系统成为未来创新的一个重要组成部分。采用这种方法不仅将导致更高效的操作，还将为自动化和智能系统的突破性发展铺平道路。