maneuvering manifold

简明释义

操纵装置阀箱

英英释义

例句

1.In naval operations, the maneuvering manifold plays a key role in executing complex maneuvers.

在海军行动中，操纵歧管在执行复杂机动中起着关键作用。

2.The pilot adjusted the controls to optimize the performance of the maneuvering manifold in order to enhance the aircraft's agility.

飞行员调整控制以优化操纵歧管的性能，从而增强飞机的灵活性。

3.Proper calibration of the maneuvering manifold is crucial for optimal performance in high-speed scenarios.

对操纵歧管的正确校准对于高速场景中的最佳性能至关重要。

4.During the simulation, we focused on the efficiency of the maneuvering manifold to ensure quick response times.

在模拟过程中，我们专注于操纵歧管的效率，以确保快速响应时间。

5.The engineers upgraded the maneuvering manifold to improve the vehicle's handling characteristics.

工程师们升级了操纵歧管以改善车辆的操控特性。

作文

In the realm of engineering and robotics, the term maneuvering manifold is often employed to describe a complex set of configurations that a system can adopt to achieve its desired movements. This concept is particularly relevant in fields such as robotics, where understanding the maneuvering manifold can lead to more efficient and effective designs. The maneuvering manifold refers to the various states or positions that a robotic arm or vehicle can occupy while still being able to perform its intended tasks. For instance, consider a robotic arm designed for industrial applications. The arm must be able to reach different points in space while avoiding obstacles and maintaining stability. By analyzing the maneuvering manifold, engineers can determine the optimal paths and configurations that the arm can take to maximize efficiency and minimize energy consumption.The importance of the maneuvering manifold extends beyond just robotics; it also applies to various fields such as aerospace, automotive design, and even computer graphics. In aerospace, for example, understanding the maneuvering manifold of an aircraft allows engineers to predict how the aircraft will behave under different flight conditions. This knowledge is crucial for ensuring safety and performance in flight operations. Similarly, in automotive design, the maneuvering manifold helps engineers understand how a car will respond to steering inputs and road conditions, ultimately leading to better handling and control.Moreover, the study of the maneuvering manifold is not only theoretical but also practical. Engineers and designers use simulations and modeling techniques to visualize the maneuvering manifold of their systems. These tools allow them to experiment with different configurations and movements without the need for physical prototypes, saving time and resources. For instance, virtual reality environments can be created to simulate how a robotic arm will navigate its maneuvering manifold, providing valuable insights before any real-world implementation takes place.In conclusion, the concept of the maneuvering manifold is integral to the design and functionality of various systems across multiple disciplines. It encapsulates the idea of exploring all possible configurations and movements that a system can undertake to achieve its goals. By mastering the principles behind the maneuvering manifold, engineers and designers can create more advanced, efficient, and safe systems that enhance our daily lives. Understanding this term not only enriches our vocabulary but also deepens our appreciation for the complexities involved in modern engineering and robotics.

在工程和机器人领域，术语maneuvering manifold常用于描述一个系统可以采用的一组复杂配置，以实现其所需的运动。这个概念在机器人等领域尤为相关，因为理解maneuvering manifold可以导致更高效和有效的设计。maneuvering manifold指的是一个机器人手臂或车辆可以占据的各种状态或位置，同时仍然能够执行其预期任务。例如，考虑一个用于工业应用的机器人手臂。该手臂必须能够在避免障碍物并保持稳定的情况下，达到空间中的不同点。通过分析maneuvering manifold，工程师可以确定手臂可以采取的最佳路径和配置，以最大化效率并最小化能耗。maneuvering manifold的重要性不仅限于机器人；它还适用于航空航天、汽车设计甚至计算机图形学等多个领域。例如，在航空航天领域，了解飞机的maneuvering manifold使工程师能够预测飞机在不同飞行条件下的行为。这种知识对于确保飞行操作的安全性和性能至关重要。同样，在汽车设计中，maneuvering manifold帮助工程师理解汽车如何响应转向输入和路况，最终导致更好的操控和控制。此外，maneuvering manifold的研究不仅是理论上的，也是实践中的。工程师和设计师使用模拟和建模技术来可视化其系统的maneuvering manifold。这些工具使他们能够在不需要物理原型的情况下实验不同的配置和运动，从而节省时间和资源。例如，可以创建虚拟现实环境来模拟机器人手臂如何导航其maneuvering manifold，在任何现实世界实施之前提供有价值的见解。总之，maneuvering manifold的概念对于多个学科中各种系统的设计和功能至关重要。它概括了探索系统可以采取的所有可能配置和运动以实现其目标的思想。通过掌握与maneuvering manifold相关的原理，工程师和设计师可以创造出更先进、更高效和更安全的系统，从而提升我们的日常生活。理解这个术语不仅丰富了我们的词汇，也加深了我们对现代工程和机器人所涉及复杂性的欣赏。