maneuvering control

简明释义

操纵机构

英英释义

例句

1.The pilot engaged the maneuvering control to navigate through turbulent weather.

飞行员启用了机动控制以穿越湍流天气。

2.The car's maneuvering control feature helps prevent skidding on icy roads.

汽车的机动控制功能有助于防止在冰冷道路上打滑。

3.During the simulation, the team tested the maneuvering control of the drone.

在模拟过程中，团队测试了无人机的机动控制。

4.In robotics, maneuvering control is essential for precise movements.

在机器人技术中，机动控制对于精确运动至关重要。

5.The ship's maneuvering control system allows it to turn sharply in tight spaces.

船只的机动控制系统使其能够在狭窄空间内急转弯。

作文

In the world of engineering and technology, the term maneuvering control refers to the systems and techniques used to guide and direct vehicles or machines effectively. This concept is crucial in various fields such as aerospace, automotive, and robotics, where precision and accuracy are paramount. Understanding maneuvering control allows engineers and operators to enhance performance, improve safety, and achieve desired outcomes in complex environments.One of the most significant applications of maneuvering control can be found in aviation. Pilots rely on advanced flight control systems that utilize maneuvering control principles to navigate aircraft through varying atmospheric conditions. These systems help maintain stability and control while executing complicated maneuvers, such as takeoffs, landings, and sharp turns. The effectiveness of these controls directly impacts the safety and efficiency of air travel, highlighting the importance of mastering maneuvering control in aviation.Similarly, in the automotive industry, maneuvering control plays a vital role in the development of autonomous vehicles. Engineers design sophisticated algorithms that enable cars to interpret sensor data and make real-time decisions about acceleration, braking, and steering. This level of control is essential for navigating crowded urban environments and avoiding obstacles. As the demand for self-driving technology grows, the mastery of maneuvering control becomes increasingly critical for ensuring passenger safety and comfort.Robotics is another domain where maneuvering control is of utmost importance. Robots must be able to perform tasks with high precision, whether it be assembling products in a factory or performing delicate surgeries in a medical setting. The control systems that govern robotic movement must be finely tuned to allow for smooth and accurate actions. By employing advanced maneuvering control techniques, engineers can develop robots that not only perform their functions efficiently but also adapt to changing conditions in real time.Moreover, maneuvering control is not limited to mechanical systems; it also applies to software and digital environments. In video games, for instance, developers implement maneuvering control algorithms to create realistic movements for characters and vehicles. Players experience a sense of immersion when these controls are executed flawlessly, demonstrating how vital maneuvering control is in enhancing user experience.In summary, the concept of maneuvering control is fundamental across multiple industries, influencing the design and operation of vehicles, robots, and even digital platforms. It encompasses a range of techniques and technologies aimed at achieving precise control over movement and direction. As technology continues to advance, the mastery of maneuvering control will remain a key factor in driving innovation and ensuring safety in various applications. Therefore, understanding and improving maneuvering control should be a priority for engineers and developers alike, as it holds the potential to transform the way we interact with machines and the world around us.

在工程和技术领域，术语maneuvering control指的是用于有效引导和控制车辆或机器的系统和技术。这个概念在航空航天、汽车和机器人等多个领域至关重要，因为这些领域对精度和准确性的要求极高。理解maneuvering control使工程师和操作员能够在复杂环境中提高性能、改善安全性并实现预期结果。maneuvering control最显著的应用之一可以在航空领域找到。飞行员依赖于先进的飞行控制系统，这些系统利用maneuvering control原理在不同的气象条件下导航飞机。这些系统有助于在执行复杂的机动，例如起飞、着陆和急转弯时保持稳定和控制。这些控制的有效性直接影响航空旅行的安全性和效率，突显了掌握航空领域maneuvering control的重要性。同样，在汽车工业中，maneuvering control在自主车辆的发展中发挥着重要作用。工程师设计复杂的算法，使汽车能够解释传感器数据并实时做出关于加速、刹车和转向的决策。这种控制水平对于在拥挤的城市环境中导航和避免障碍至关重要。随着对自动驾驶技术需求的增加，掌握maneuvering control变得愈发关键，以确保乘客的安全和舒适。机器人技术是另一个maneuvering control至关重要的领域。机器人必须能够以高精度执行任务，无论是在工厂组装产品还是在医疗环境中进行精细手术。控制机器人运动的系统必须经过精细调整，以允许平滑和准确的动作。通过采用先进的maneuvering control技术，工程师可以开发出不仅能高效执行功能，还能实时适应变化条件的机器人。此外，maneuvering control不仅限于机械系统；它还适用于软件和数字环境。例如，在视频游戏中，开发者实施maneuvering control算法，以创建角色和车辆的真实运动。当这些控制得到完美执行时，玩家会体验到沉浸感，展示了maneuvering control在增强用户体验中的重要性。总之，maneuvering control的概念在多个行业中是基础性的，影响着车辆、机器人甚至数字平台的设计和操作。它涵盖了一系列旨在实现对运动和方向的精确控制的技术和方法。随着技术的不断进步，掌握maneuvering control将继续成为推动创新和确保各种应用安全的关键因素。因此，理解和改善maneuvering control应成为工程师和开发者的优先事项，因为它有潜力改变我们与机器及周围世界的互动方式。