cross damping

简明释义

正交阻尼

英英释义

例句

1.The researchers found that cross damping could effectively control the oscillations in the system.

研究人员发现，交叉阻尼可以有效控制系统中的振荡。

2.The concept of cross damping is crucial in automotive engineering for improving ride comfort.

在汽车工程中，交叉阻尼的概念对于提高乘坐舒适性至关重要。

3.In the new model, cross damping helps reduce noise levels significantly.

在新模型中，交叉阻尼显著减少了噪音水平。

4.By using cross damping, the team was able to enhance the stability of the building during earthquakes.

通过使用交叉阻尼，团队能够增强建筑在地震期间的稳定性。

5.The engineers implemented cross damping to minimize vibrations in the bridge design.

工程师们实施了交叉阻尼以最小化桥梁设计中的振动。

作文

In the field of control systems and engineering, the term cross damping refers to a phenomenon where the damping effect in one part of a system influences or interacts with another part. This concept is particularly significant in multi-input multi-output (MIMO) systems, where multiple inputs can affect multiple outputs. Understanding cross damping is crucial for engineers who design and analyze complex systems, as it can greatly impact stability and performance.To illustrate the importance of cross damping, let’s consider an example of a suspension system in vehicles. In modern cars, the suspension system consists of various components including springs and dampers that work together to provide a smooth ride. If one side of the vehicle experiences a bump, the damping effect on that side can influence the opposite side due to cross damping. This interaction can either enhance or reduce the overall stability of the vehicle, depending on how the system is designed.Moreover, cross damping can also be observed in structural engineering, particularly in tall buildings subjected to wind forces. When wind hits one side of a building, the response of the structure can be affected by the damping mechanisms in place, which may include tuned mass dampers or other forms of energy dissipation. The interaction between these elements can lead to a reduction in oscillations or vibrations, showcasing the positive effects of cross damping in maintaining structural integrity.In addition to its applications in engineering, cross damping has implications in other fields such as economics and biology. For instance, in economic models, the interaction between different markets can exhibit cross damping effects where shocks in one market may dampen or amplify fluctuations in another. Similarly, in biological systems, the interactions between different species can demonstrate cross damping in population dynamics, where the growth or decline of one species influences another.Understanding cross damping requires a solid grasp of the principles of linear algebra and differential equations, as it often involves analyzing the state-space representation of systems. Engineers must carefully model these interactions to predict system behavior accurately. Tools such as simulation software can aid in visualizing the effects of cross damping and help in designing systems that minimize adverse interactions.In conclusion, cross damping is a critical concept across various disciplines that highlights the interconnectedness of systems. Whether in mechanical systems, structural engineering, economics, or biology, recognizing and managing cross damping can lead to improved designs and better outcomes. As technology continues to advance, the understanding of these interactions will become even more vital, allowing for the creation of more resilient and efficient systems. Engineers and scientists alike must continue to explore the nuances of cross damping to harness its potential benefits effectively.

在控制系统和工程领域，术语cross damping指的是一个系统中某一部分的阻尼效应影响或与另一部分相互作用的现象。这个概念在多输入多输出（MIMO）系统中尤为重要，因为多个输入可以影响多个输出。理解cross damping对设计和分析复杂系统的工程师至关重要，因为它会极大地影响系统的稳定性和性能。为了说明cross damping的重要性，我们以汽车的悬挂系统为例。在现代汽车中，悬挂系统由多个组件组成，包括弹簧和阻尼器，它们共同工作以提供平稳的驾驶体验。如果车辆的一侧遇到颠簸，那个侧面的阻尼效应可能会由于cross damping而影响到对侧。这种相互作用可以增强或减少车辆的整体稳定性，具体取决于系统的设计。此外，cross damping还可以在结构工程中观察到，特别是在高层建筑受到风力作用时。当风吹向建筑物的一侧时，结构的响应可能会受到阻尼机制的影响，这些机制可能包括调谐质量阻尼器或其他形式的能量耗散。这些元素之间的相互作用可以减少振动或摆动，展示了cross damping在维护结构完整性方面的积极效果。除了在工程中的应用外，cross damping在经济学和生物学等其他领域也有影响。例如，在经济模型中，不同市场之间的相互作用可能表现出cross damping效应，其中一个市场的冲击可能减弱或放大另一个市场的波动。同样，在生物系统中，不同物种之间的相互作用可以在种群动态中展示cross damping，其中一种物种的增长或衰退影响另一种。理解cross damping需要对线性代数和微分方程原理有扎实的掌握，因为它通常涉及分析系统的状态空间表示。工程师必须仔细建模这些相互作用，以准确预测系统行为。诸如仿真软件等工具可以帮助可视化cross damping的效果，并帮助设计最小化不利相互作用的系统。总之，cross damping是一个在各个学科中都非常关键的概念，突显了系统之间的相互联系。无论是在机械系统、结构工程、经济学还是生物学中，认识和管理cross damping都可以带来更好的设计和结果。随着技术的不断进步，对这些相互作用的理解将变得更加重要，从而能够创建更具韧性和高效的系统。工程师和科学家必须继续探索cross damping的细微差别，以有效利用其潜在好处。