cross coupling

简明释义

交叉耦合

英英释义

例句

1.The engineer explained that the cross coupling 交叉耦合 between the two systems could lead to unexpected results.

工程师解释说，两个系统之间的交叉耦合可能会导致意想不到的结果。

2.The software was designed to minimize cross coupling 交叉耦合 to enhance modularity.

该软件旨在最小化交叉耦合以增强模块化。

3.To improve performance, the team focused on reducing cross coupling 交叉耦合 in their design.

为了提高性能，团队专注于减少设计中的交叉耦合。

4.In control theory, cross coupling 交叉耦合 refers to the interaction between different control loops.

在控制理论中，交叉耦合指的是不同控制回路之间的相互作用。

5.During the experiment, the researchers observed significant cross coupling 交叉耦合 effects in the data.

在实验过程中，研究人员观察到数据中显著的交叉耦合效应。

作文

In the field of engineering, particularly in control systems and signal processing, the term cross coupling refers to a phenomenon where two or more systems or components interact with each other in a way that affects their performance. This interaction can be intentional, such as in a coordinated control system, or unintentional, leading to complications in system behavior. Understanding cross coupling is crucial for engineers and designers as it can significantly impact the efficiency and reliability of a system.For instance, consider a scenario in an aircraft's flight control system. The pitch control and roll control are two separate systems that should ideally operate independently. However, due to cross coupling, changes in pitch can inadvertently affect the roll, and vice versa. This unintended interaction can lead to difficulties in maintaining stable flight conditions, requiring pilots to constantly adjust for these effects. Therefore, engineers must account for cross coupling when designing control algorithms to ensure that the systems respond appropriately without interference from one another.Moreover, cross coupling can also be observed in various fields such as economics, biology, and social sciences. In economics, for example, the interaction between different market sectors can lead to unexpected outcomes. A change in the price of oil may not only affect the energy sector but also have ripple effects on transportation, manufacturing, and even consumer goods. This interconnectedness highlights the importance of understanding cross coupling in economic models to better predict market behaviors and trends.In biological systems, cross coupling can occur at the cellular level, where signals from one cell can influence the behavior of neighboring cells. This is especially important in processes like tissue repair and immune response, where the communication between cells determines the overall effectiveness of the response. Researchers studying these interactions must consider cross coupling to develop accurate models of cellular behavior and to create effective treatments for diseases.To mitigate the effects of cross coupling, engineers and scientists often employ various strategies. One common approach is to use decoupling techniques in control systems, which aim to minimize the interactions between different components. This can involve redesigning system architectures, implementing feedback loops, or using advanced algorithms that account for potential cross coupling effects.In conclusion, cross coupling is a multifaceted concept that plays a significant role across various disciplines. Whether in engineering, economics, or biology, the interactions between systems can lead to both challenges and opportunities. By understanding and addressing cross coupling, professionals in these fields can enhance their designs, improve predictions, and ultimately achieve better outcomes. As we continue to explore the complexities of interconnected systems, the importance of recognizing cross coupling will only grow, emphasizing the need for interdisciplinary approaches to problem-solving.

在工程领域，特别是在控制系统和信号处理方面，“cross coupling”一词指的是两个或多个系统或组件以影响其性能的方式相互作用的现象。这种相互作用可以是有意的，例如在协调控制系统中，或是无意的，导致系统行为的复杂化。理解cross coupling对于工程师和设计师至关重要，因为它会显著影响系统的效率和可靠性。例如，考虑一个飞行器的飞行控制系统的场景。俯仰控制和滚转控制是两个独立操作的系统，但由于cross coupling，俯仰的变化可能会无意中影响滚转，反之亦然。这种意外的相互作用可能导致保持稳定飞行条件的困难，要求飞行员不断调整这些影响。因此，工程师在设计控制算法时必须考虑cross coupling，以确保系统在没有相互干扰的情况下做出适当的响应。此外，cross coupling还可以在经济学、生物学和社会科学等各个领域中观察到。例如，在经济学中，不同市场部门之间的相互作用可能导致意想不到的结果。油价的变化不仅会影响能源部门，还会对运输、制造业甚至消费品产生连锁反应。这种相互联系突显了在经济模型中理解cross coupling的重要性，以更好地预测市场行为和趋势。在生物系统中，cross coupling可以发生在细胞层面，其中一个细胞的信号可以影响邻近细胞的行为。这在组织修复和免疫反应等过程中尤其重要，因为细胞之间的交流决定了整体反应的有效性。研究这些相互作用的研究人员必须考虑cross coupling，以开发准确的细胞行为模型并创造有效的疾病治疗方案。为了减轻cross coupling的影响，工程师和科学家通常采用各种策略。一种常见的方法是在控制系统中使用解耦技术，旨在最小化不同组件之间的相互作用。这可能涉及重新设计系统架构、实施反馈回路或使用考虑潜在cross coupling效应的高级算法。总之，cross coupling是一个多方面的概念，在各个学科中发挥着重要作用。无论是在工程、经济学还是生物学，系统之间的相互作用都可能带来挑战和机遇。通过理解和解决cross coupling，这些领域的专业人士可以增强他们的设计、改善预测，并最终实现更好的结果。随着我们继续探索互联系统的复杂性，认识到cross coupling的重要性将愈发增长，强调了解决问题时跨学科方法的必要性。