angular orientation

简明释义

1. 角定向; 2. 角取向;

英英释义

例句

1.The drone's angular orientation 角度方向 needs to be calibrated before flight.

无人机的angular orientation角度方向在飞行前需要校准。

2.In virtual reality, the angular orientation 角度方向 of the headset affects the user's experience.

在虚拟现实中，头戴设备的angular orientation角度方向会影响用户体验。

3.The robot's angular orientation 角度方向 is crucial for accurate navigation.

机器人的angular orientation角度方向对精确导航至关重要。

4.The device measures its angular orientation 角度方向 to maintain balance while moving.

该设备测量其angular orientation角度方向以在移动时保持平衡。

5.Adjusting the angular orientation 角度方向 of the satellite ensures better signal reception.

调整卫星的angular orientation角度方向可以确保更好的信号接收。

作文

In the realm of physics and engineering, the concept of angular orientation plays a crucial role in understanding how objects rotate and interact with each other. Essentially, angular orientation refers to the position of an object in relation to a reference axis or point, which defines its rotational state. This concept is not only fundamental in theoretical studies but also has practical applications in various fields such as robotics, aerospace, and even virtual reality. To illustrate the importance of angular orientation, consider the case of a drone navigating through a complex environment. The drone's ability to maintain its stability and direction relies heavily on its angular orientation. By continuously measuring its angle relative to the ground and other reference points, the drone can adjust its flight path and avoid obstacles effectively. This real-time adjustment is made possible by sensors that provide data about the drone's current angular orientation. Moreover, in the field of robotics, understanding angular orientation is vital for the development of robotic arms and manipulators. These machines often need to perform precise movements to accomplish tasks such as assembling components or performing surgeries. The angular orientation of each joint in the robotic arm must be meticulously controlled to ensure accuracy and efficiency. Engineers utilize mathematical models and algorithms to calculate the required angular orientation for each movement, thus enabling robots to execute complex tasks with remarkable precision. Virtual reality (VR) is another area where angular orientation is of paramount importance. In VR environments, users wear headsets that track their head movements. The system needs to constantly update the user's angular orientation to create an immersive experience. Any lag or inaccuracy in detecting the user's angular orientation can lead to motion sickness or a disjointed experience. Therefore, developers invest significant resources into perfecting the tracking technology that measures angular orientation in real-time. In conclusion, angular orientation is a fundamental concept that underpins many modern technologies and applications. Its significance extends beyond mere theoretical understanding; it is integral to the functionality of systems that require precise control and navigation. As technology continues to advance, the importance of accurately measuring and utilizing angular orientation will only grow, leading to more innovative solutions across various industries. Understanding this concept not only enhances our knowledge of physics and engineering but also empowers us to harness its potential in practical applications. Thus, whether we are piloting drones, programming robots, or immersing ourselves in virtual worlds, the concept of angular orientation remains a vital aspect of our technological landscape, shaping the way we interact with the world around us.

在物理和工程领域，角度方向这一概念在理解物体如何旋转和相互作用方面发挥着至关重要的作用。基本上，角度方向指的是物体相对于参考轴或点的位置，这定义了其旋转状态。这个概念不仅在理论研究中是基础，在机器人技术、航空航天甚至虚拟现实等多个领域也有实际应用。为了说明角度方向的重要性，考虑一下无人机在复杂环境中导航的案例。无人机保持稳定和方向的能力在很大程度上依赖于其角度方向。通过不断测量其相对于地面和其他参考点的角度，无人机可以有效地调整飞行路径并避免障碍物。这种实时调整得益于提供无人机当前角度方向数据的传感器。此外，在机器人技术领域，理解角度方向对机器手臂和操纵器的发展至关重要。这些机器通常需要执行精确的运动，以完成组装组件或进行手术等任务。机器手臂中每个关节的角度方向必须经过仔细控制，以确保准确性和效率。工程师利用数学模型和算法来计算每个运动所需的角度方向，从而使机器人能够以令人惊叹的精确度执行复杂任务。虚拟现实（VR）是另一个角度方向至关重要的领域。在VR环境中，用户佩戴跟踪头部运动的头盔。系统需要不断更新用户的角度方向，以创造沉浸式体验。任何延迟或检测用户角度方向的不准确都会导致晕动病或体验不连贯。因此，开发人员投入大量资源来完善实时测量角度方向的追踪技术。总之，角度方向是支撑许多现代技术和应用的基本概念。它的重要性超越了单纯的理论理解；它是需要精确控制和导航的系统功能的核心。随着技术的不断进步，准确测量和利用角度方向的重要性只会增加，从而在各个行业带来更具创新性的解决方案。理解这一概念不仅增强了我们对物理和工程的认识，也使我们能够在实际应用中利用其潜力。因此，无论我们是在驾驶无人机、编程机器人，还是沉浸在虚拟世界中，角度方向的概念始终是我们技术景观中的一个重要方面，塑造着我们与周围世界的互动方式。