controlled system with self-regulation

简明释义

自调式控制系统

英英释义

例句

1.In robotics, a feedback loop creates a controlled system with self-regulation that allows robots to adapt their movements in real-time.

在机器人技术中，反馈回路创建了一个具有自我调节的受控系统，使机器人能够实时调整其运动。

2.The stock market can sometimes behave like a controlled system with self-regulation, where prices adjust based on supply and demand.

股票市场有时可以表现得像一个具有自我调节的受控系统，价格根据供需变化进行调整。

3.The climate in the greenhouse acts as a controlled system with self-regulation, allowing plants to thrive by maintaining optimal temperature and humidity levels.

温室内的气候作为一个具有自我调节的受控系统，通过维持最佳温度和湿度水平，使植物茁壮成长。

4.The human body can be viewed as a controlled system with self-regulation, maintaining homeostasis through various feedback mechanisms.

人体可以被视为一个具有自我调节的受控系统，通过各种反馈机制维持内环境稳态。

5.A smart thermostat is an example of a controlled system with self-regulation, adjusting the heating or cooling based on the current room temperature.

智能恒温器是一个具有自我调节的受控系统的例子，根据当前房间温度调整加热或冷却。

作文

In today's rapidly changing world, the concept of a controlled system with self-regulation is increasingly relevant. A controlled system with self-regulation refers to a system that not only operates under specific guidelines and controls but also has the ability to adjust its behavior based on feedback from its environment. This dual capability makes it an essential model in various fields such as engineering, economics, and even social sciences.To illustrate this concept, consider an example from nature: the human body. The human body can be seen as a controlled system with self-regulation because it maintains homeostasis, a stable internal environment, despite external changes. For instance, when the temperature rises, the body responds by sweating to cool down; conversely, when it gets too cold, the body shivers to generate heat. This self-regulatory mechanism ensures that the body functions optimally, demonstrating the effectiveness of a controlled system with self-regulation.Similarly, in engineering, many modern systems are designed with self-regulating features. Take, for instance, a smart thermostat. It is a controlled system with self-regulation that monitors the temperature of a room and adjusts heating or cooling automatically. By learning from users’ preferences and environmental conditions, it creates a comfortable living space while optimizing energy consumption. This not only enhances user comfort but also contributes to energy efficiency, showcasing the practical benefits of employing a controlled system with self-regulation in technology.In economics, markets can also be viewed through the lens of controlled systems with self-regulation. The theory of supply and demand illustrates how prices adjust based on market conditions. When demand exceeds supply, prices rise, which in turn encourages producers to increase supply until equilibrium is restored. This self-regulatory aspect of markets highlights how they can adapt to changes without the need for external intervention, embodying the principles of a controlled system with self-regulation.However, it is crucial to recognize that not all controlled systems are effective in self-regulating. Sometimes, external shocks or internal failures can disrupt the balance. For instance, in the case of financial markets, excessive speculation can lead to bubbles, which, when burst, create significant economic turmoil. This indicates that while the concept of a controlled system with self-regulation is powerful, it requires careful design and monitoring to ensure stability and resilience.In conclusion, the idea of a controlled system with self-regulation offers valuable insights across various domains. Whether it is the human body maintaining its internal balance, a smart thermostat optimizing comfort, or markets adjusting to supply and demand, the ability to regulate oneself in response to external conditions is a fundamental trait of successful systems. As we continue to develop complex systems in our lives, understanding and implementing the principles of a controlled system with self-regulation will be vital in achieving sustainability and efficiency in our world.

在当今快速变化的世界中，“受控系统与自我调节”的概念越来越相关。“受控系统与自我调节”指的是一个不仅在特定指导和控制下运作的系统，而且还具有根据环境反馈调整其行为的能力。这种双重能力使其成为工程、经济学甚至社会科学等多个领域的重要模型。为了说明这个概念，可以考虑自然界的一个例子：人体。人体可以被视为一个“受控系统与自我调节”，因为它维持着稳态，即尽管外部环境发生变化，内部环境仍然保持稳定。例如，当温度升高时，身体通过出汗来降温；相反，当温度过低时，身体会颤抖以产生热量。这种自我调节机制确保了身体的最佳功能，展示了“受控系统与自我调节”的有效性。同样，在工程领域，许多现代系统都设计有自我调节的功能。例如，智能恒温器就是一个“受控系统与自我调节”，它监测房间的温度并自动调整加热或制冷。通过学习用户的偏好和环境条件，它创造了一个舒适的生活空间，同时优化能源消耗。这不仅增强了用户的舒适感，还促进了能源效率，展示了在技术中采用“受控系统与自我调节”的实际好处。在经济学中，市场也可以通过“受控系统与自我调节”的视角来看待。供需理论说明了价格如何根据市场条件调整。当需求超过供应时，价格上涨，这反过来又鼓励生产者增加供应，直到恢复均衡。市场的这种自我调节特性突显了它们如何在没有外部干预的情况下适应变化，体现了“受控系统与自我调节”的原则。然而，必须认识到，并非所有的受控系统在自我调节方面都是有效的。有时，外部冲击或内部故障可能会打乱平衡。例如，在金融市场中，过度投机可能导致泡沫，而泡沫破裂时会造成重大经济动荡。这表明，虽然“受控系统与自我调节”的概念是强大的，但它需要仔细设计和监控，以确保稳定性和韧性。总之，“受控系统与自我调节”的理念在各个领域提供了宝贵的见解。无论是人体维持内部平衡、智能恒温器优化舒适性，还是市场根据供需进行调整，自我调节的能力在响应外部条件方面是成功系统的基本特征。随着我们继续发展生活中的复杂系统，理解和实施“受控系统与自我调节”的原则将对实现可持续性和效率至关重要。