yaw angle
简明释义
偏航角
英英释义
The yaw angle is the angle between the forward direction of a vehicle or object and a reference direction, typically measured in the horizontal plane. | 航向角是指一个车辆或物体的前进方向与参考方向之间的角度,通常在水平面内测量。 |
例句
1.To improve navigation, the robot's yaw angle 偏航角 needs to be calibrated regularly.
为了改善导航,机器人的偏航角需要定期校准。
2.The pilot adjusted the yaw angle 偏航角 during the turn to avoid turbulence.
飞行员在转弯时调整了偏航角以避免湍流。
3.In the simulation, we need to input the yaw angle 偏航角 to accurately model the aircraft's behavior.
在模拟中,我们需要输入偏航角以准确模拟飞机的行为。
4.The yaw angle 偏航角 affects how quickly the vehicle can turn around its vertical axis.
偏航角影响车辆围绕其垂直轴转动的速度。
5.The drone's yaw angle 偏航角 must be adjusted to maintain a stable flight path.
无人机的偏航角需要调整以保持稳定的飞行路径。
作文
In the field of aerodynamics and robotics, understanding the concept of yaw angle is crucial for various applications. The yaw angle refers to the rotation around the vertical axis of a vehicle or an object. This rotation can significantly affect the direction in which the vehicle is heading, making it essential for navigation and control systems. For instance, in aviation, pilots must constantly monitor the yaw angle to ensure that their aircraft is aligned correctly with the intended flight path. A miscalculation in the yaw angle can lead to deviations from the course, potentially resulting in dangerous situations.In addition to aviation, the yaw angle is also vital in the automotive industry. Modern cars are equipped with advanced stability control systems that rely on accurate measurements of the yaw angle. These systems help maintain vehicle stability during sharp turns or sudden maneuvers. By analyzing the yaw angle, the system can determine if the car is losing traction and adjust the brakes or throttle accordingly to prevent skidding.Robotics is another domain where the yaw angle plays an important role. Autonomous robots often need to navigate through complex environments. By understanding the yaw angle, these robots can make precise adjustments to their orientation, allowing them to avoid obstacles and reach their destinations efficiently. For example, a drone flying in an outdoor environment must adjust its yaw angle to align with the wind direction, ensuring stable flight and accurate positioning.Furthermore, the yaw angle is not limited to vehicles and robots; it also applies to various other fields such as gaming and virtual reality. In video games, developers use the concept of yaw angle to create realistic movements for characters and objects. By manipulating the yaw angle, game designers can simulate turning motions, enhancing the overall gaming experience.To summarize, the yaw angle is a fundamental concept that has far-reaching implications across multiple industries. Whether it’s in aviation, automotive technology, robotics, or gaming, understanding and accurately measuring the yaw angle is essential for achieving desired outcomes. As technology continues to evolve, the significance of the yaw angle will likely grow, leading to even more innovative applications in the future. Therefore, mastering this concept is not only beneficial but necessary for professionals working in these dynamic fields.
在空气动力学和机器人技术领域,理解“偏航角”的概念对于各种应用至关重要。“偏航角”是指物体或车辆绕垂直轴旋转的角度。这种旋转会显著影响车辆的行驶方向,因此对导航和控制系统至关重要。例如,在航空中,飞行员必须不断监控“偏航角”,以确保飞机与预定航线正确对齐。对“偏航角”的错误计算可能导致航向偏离,从而可能导致危险情况。除了航空,偏航角在汽车工业中也至关重要。现代汽车配备了先进的稳定控制系统,这些系统依赖于对“偏航角”的准确测量。这些系统有助于在急转弯或突然操作时维持车辆的稳定性。通过分析“偏航角”,系统可以判断汽车是否失去牵引力,并相应地调整刹车或油门,以防止打滑。机器人技术是另一个“偏航角”发挥重要作用的领域。自主机器人常常需要在复杂环境中导航。通过理解“偏航角”,这些机器人可以精确调整其方向,使其能够有效地避开障碍物并到达目的地。例如,在户外环境中飞行的无人机必须调整其“偏航角”以与风向对齐,从而确保稳定飞行和准确定位。此外,“偏航角”不仅限于车辆和机器人,它还适用于游戏和虚拟现实等多个领域。在视频游戏中,开发者使用“偏航角”的概念来创建角色和物体的逼真运动。通过操控“偏航角”,游戏设计师可以模拟转向动作,从而增强整体游戏体验。总之,“偏航角”是一个基本概念,其在多个行业中具有广泛的影响。无论是在航空、汽车技术、机器人技术还是游戏中,理解和准确测量“偏航角”对于实现预期结果至关重要。随着技术的不断发展,“偏航角”的重要性可能会进一步增长,从而在未来带来更多创新应用。因此,掌握这一概念对于在这些动态领域工作的专业人士来说,不仅是有益的,而且是必要的。
相关单词
