multi-mode disturbance

简明释义

多模干扰

英英释义

例句

1.Understanding multi-mode disturbance is crucial for improving the accuracy of sensor data.

理解多模式干扰对提高传感器数据的准确性至关重要。

2.The engineers developed a model to predict multi-mode disturbance in communication networks.

工程师们开发了一种模型来预测通信网络中的多模式干扰。

3.In robotics, multi-mode disturbance can significantly affect the performance of autonomous vehicles.

在机器人技术中，多模式干扰会显著影响自动驾驶车辆的性能。

4.The research team studied the effects of multi-mode disturbance on the stability of the system.

研究小组研究了多模式干扰对系统稳定性的影响。

5.During the experiment, we observed significant multi-mode disturbance affecting the results.

在实验过程中，我们观察到显著的多模式干扰影响了结果。

作文

In the field of engineering and physics, the concept of multi-mode disturbance refers to disruptions that can occur in multiple forms or modes simultaneously. This phenomenon is particularly significant in areas such as structural engineering, vibration analysis, and control systems. Understanding multi-mode disturbance is crucial for designing robust systems that can withstand various types of disturbances without compromising performance.For instance, consider a bridge that is subjected to both wind forces and traffic loads. These two types of disturbances can affect the bridge's stability and integrity in different ways. The wind may cause oscillations in the structure, while the weight of vehicles can induce static and dynamic loads. When both factors are present, engineers must analyze the combined effects to ensure the bridge can safely accommodate these multi-mode disturbances.In vibration analysis, multi-mode disturbance plays a vital role in understanding how structures respond to external forces. A building, for example, may experience vibrations from earthquakes, wind, or even nearby construction activities. Each of these sources generates different vibration modes that can interact with one another. Engineers use mathematical models to simulate these interactions and predict how the structure will behave under multi-mode disturbance. This predictive capability is essential for ensuring safety and longevity in construction projects.Furthermore, in control systems, multi-mode disturbance can pose challenges for maintaining system stability. A robot, for example, may encounter various disturbances such as uneven terrain, wind, or sudden obstacles. Each of these disturbances requires different responses from the control system. To effectively manage these challenges, engineers must develop algorithms that can adapt to multi-mode disturbances in real time, ensuring the robot can navigate its environment safely and efficiently.In conclusion, the understanding of multi-mode disturbance is critical across various engineering disciplines. It involves recognizing that disturbances can manifest in different forms and that their combined effects can significantly impact system performance. By studying these interactions, engineers can design more resilient structures and systems that are better equipped to handle the complexities of real-world conditions. As technology continues to advance, the importance of addressing multi-mode disturbance will only grow, making it a key area of focus for future research and development efforts.

在工程和物理学领域，多模态干扰的概念指的是同时以多种形式或模式发生的干扰现象。这一现象在结构工程、振动分析和控制系统等领域尤为重要。理解多模态干扰对于设计能够承受各种类型干扰而不影响性能的稳健系统至关重要。例如，考虑一座受到风力和交通负荷影响的桥梁。这两种类型的干扰可能以不同的方式影响桥梁的稳定性和完整性。风可能导致结构的振荡，而车辆的重量则会引起静态和动态负载。当两者同时存在时，工程师必须分析其综合影响，以确保桥梁能够安全承受这些多模态干扰。在振动分析中，多模态干扰在理解结构如何响应外部力量方面发挥着重要作用。例如，一栋建筑可能会遭受来自地震、风或附近施工活动的振动。这些来源每个都会产生不同的振动模式，这些模式可能相互作用。工程师使用数学模型来模拟这些相互作用，并预测在多模态干扰下结构的表现。这种预测能力对于确保建筑项目的安全性和耐久性至关重要。此外，在控制系统中，多模态干扰可能给维持系统稳定性带来挑战。例如，一台机器人可能会遇到不均匀的地形、风或突发障碍物等各种干扰。每一种干扰都需要控制系统作出不同的响应。为了有效管理这些挑战，工程师必须开发能够实时适应多模态干扰的算法，以确保机器人能够安全高效地导航其环境。总之，理解多模态干扰在各个工程学科中至关重要。它涉及到认识到干扰可以以不同形式表现，并且它们的综合影响可能显著影响系统性能。通过研究这些相互作用，工程师可以设计出更具韧性的结构和系统，使其更好地应对现实条件的复杂性。随着技术的不断进步，解决多模态干扰的重要性只会增加，使其成为未来研究和开发工作的重点领域。