angular scanning rate

简明释义

扫描角速度

英英释义

例句

1.The robot's angular scanning rate 角扫描速率 was adjusted to improve its navigation accuracy.

机器人的角扫描速率 angular scanning rate 被调整以提高其导航精度。

2.The angular scanning rate 角扫描速率 is crucial for ensuring that the radar system can detect objects accurately.

对于确保雷达系统能够准确检测物体，角扫描速率 angular scanning rate 是至关重要的。

3.To enhance the performance of the telescope, the engineers optimized the angular scanning rate 角扫描速率 for celestial observations.

为了增强望远镜的性能，工程师们优化了用于天体观察的角扫描速率 angular scanning rate。

4.In the latest model, the angular scanning rate 角扫描速率 has been increased to allow for faster data collection.

在最新型号中，角扫描速率 angular scanning rate 已被提高，以便更快地收集数据。

5.The angular scanning rate 角扫描速率 of the drone affects how quickly it can survey an area.

无人机的角扫描速率 angular scanning rate 影响它对一个区域进行勘测的速度。

作文

In the realm of robotics and automation, understanding various technical terms is crucial for effective communication and implementation. One such term that often arises in discussions about sensor technology and robotic movement is angular scanning rate. This term refers to the speed at which a sensor or a device can rotate around a specific axis to capture data or images. The angular scanning rate is essential in applications such as LIDAR (Light Detection and Ranging) systems, where the ability to rapidly survey an environment can significantly enhance the performance and accuracy of the system.The angular scanning rate is typically measured in degrees per second or radians per second, indicating how quickly a device can change its orientation while gathering information. For instance, if a LIDAR sensor has an angular scanning rate of 360 degrees per second, it means that the sensor can complete a full rotation in just one second, allowing it to create a detailed map of its surroundings in real-time. This capability is particularly important in autonomous vehicles, where rapid environmental assessment is necessary for safe navigation.Moreover, the angular scanning rate plays a critical role in determining the resolution and quality of the collected data. A higher scanning rate allows for more frequent data points to be gathered, resulting in a more detailed and accurate representation of the environment. However, it is also essential to balance the angular scanning rate with the processing capabilities of the system. If the scanning rate is too high for the system to process the data efficiently, it may lead to data loss or inaccuracies, undermining the purpose of the advanced scanning technology.In addition to robotics and autonomous systems, the concept of angular scanning rate is also applicable in various fields such as astronomy and surveillance. Telescopes, for example, have specific angular scanning rates that dictate how quickly they can move to track celestial objects across the night sky. Similarly, surveillance cameras utilize angular scanning rates to cover wide areas effectively, ensuring that no critical events go unnoticed.In conclusion, the angular scanning rate is a vital parameter in the design and functionality of modern sensors and robotic systems. By understanding this term, engineers and developers can optimize their devices for better performance and efficiency. As technology continues to advance, the relevance of the angular scanning rate will only grow, emphasizing the need for ongoing research and development in this area. In a world where data is increasingly valuable, mastering the intricacies of terms like angular scanning rate will be essential for anyone looking to contribute to the future of technology and automation.

在机器人和自动化领域，理解各种技术术语对于有效的沟通和实施至关重要。其中一个在传感器技术和机器人运动讨论中经常出现的术语是角扫描速率。该术语指的是传感器或设备围绕特定轴旋转以捕获数据或图像的速度。角扫描速率在LIDAR（光探测与测距）系统等应用中至关重要，在这些应用中，快速调查环境的能力可以显著提高系统的性能和准确性。角扫描速率通常以每秒的度数或弧度来衡量，指示设备在收集信息时改变其方向的速度。例如，如果一个LIDAR传感器的角扫描速率为每秒360度，这意味着传感器可以在仅一秒钟内完成一次完整的旋转，从而实时创建其周围环境的详细地图。这种能力在自动驾驶汽车中尤为重要，因为快速的环境评估对于安全导航是必不可少的。此外，角扫描速率在确定收集数据的分辨率和质量方面也起着关键作用。更高的扫描速率允许更频繁地收集数据点，从而产生对环境的更详细和准确的表示。然而，还必须平衡角扫描速率与系统的处理能力。如果扫描速率过高，超出了系统高效处理数据的能力，可能会导致数据丢失或不准确，从而削弱先进扫描技术的目的。除了机器人和自动化系统，角扫描速率的概念在天文学和监控等多个领域也适用。例如，望远镜具有特定的角扫描速率，决定了它们跟踪夜空中天体的速度。同样，监控摄像头利用角扫描速率有效覆盖广泛区域，确保没有关键事件被忽视。总之，角扫描速率是现代传感器和机器人系统设计与功能中的一个重要参数。通过理解这个术语，工程师和开发者可以优化他们的设备，以提高性能和效率。随着技术的不断进步，角扫描速率的相关性只会增加，强调了在这一领域持续研究和发展的必要性。在一个数据日益珍贵的世界中，掌握角扫描速率等术语的复杂性将对任何希望为未来技术和自动化做出贡献的人来说是至关重要的。