sweep speed
简明释义
扫描速度
英英释义
The rate at which a device or system scans or covers an area, often used in the context of radar, sonar, or other scanning technologies. | 设备或系统扫描或覆盖区域的速度,通常用于雷达、声纳或其他扫描技术的上下文中。 |
例句
1.Adjusting the sweep speed of the radar can improve detection accuracy.
调整雷达的扫掠速度可以提高探测精度。
2.The drone's sweep speed is crucial for capturing high-quality aerial footage.
无人机的扫掠速度对捕捉高质量的空中画面至关重要。
3.To optimize performance, we need to analyze the sweep speed of the cleaning robot.
为了优化性能,我们需要分析清洁机器人的扫掠速度。
4.In this racing simulation, the sweep speed affects how quickly you can change lanes.
在这个赛车模拟中,扫掠速度影响你变换车道的速度。
5.The wind turbine's sweep speed determines its efficiency in harnessing wind energy.
风力涡轮机的扫掠速度决定了其利用风能的效率。
作文
In the world of technology and engineering, terms like sweep speed play a crucial role in defining performance metrics. Sweep speed refers to the rate at which a system can cover or scan a designated area or volume. This concept is particularly important in various fields such as radar technology, robotics, and even in consumer electronics like cameras and scanners. Understanding sweep speed can significantly enhance our comprehension of how devices operate and their efficiency in performing tasks.For instance, in radar systems, the sweep speed determines how quickly the radar can scan an area for objects or signals. A higher sweep speed allows for faster detection of moving objects, which is critical in applications such as air traffic control or weather monitoring. In these scenarios, the ability to rapidly collect data can mean the difference between safety and disaster.Similarly, in robotics, sweep speed can influence the effectiveness of robotic arms in manufacturing processes. A robot with a high sweep speed can move swiftly across its workspace, enhancing productivity and reducing cycle times. This is particularly important in industries where time is money, such as automotive assembly lines, where every second counts.Furthermore, in photography, the sweep speed of a camera can affect how well it captures motion. For example, a camera with a fast sweep speed can take clearer pictures of fast-moving subjects, making it ideal for sports photography or wildlife photography. Photographers often rely on this capability to ensure that they don’t miss those fleeting moments that define their art.Understanding the implications of sweep speed extends beyond just technical specifications; it also involves recognizing how these speeds impact user experience and overall satisfaction. For example, consider a scanning device in an office setting. If the sweep speed is too slow, employees may become frustrated with delays, leading to decreased productivity. Conversely, a device with an optimal sweep speed can streamline workflows and enhance efficiency.Moreover, the concept of sweep speed is not limited to physical devices. In software applications, algorithms that process data quickly can be thought of as having a high sweep speed. For instance, in video games, the responsiveness of the game to player inputs can be seen as a form of sweep speed, where quicker responses lead to a more immersive and enjoyable experience.In conclusion, the term sweep speed encompasses a range of applications across different fields, from radar technology to robotics and photography. By understanding sweep speed, we can appreciate the intricacies of how devices function and their impact on our daily lives. As technology continues to evolve, so too will the importance of optimizing sweep speed to meet the demands of an increasingly fast-paced world. Recognizing the significance of sweep speed not only enhances our knowledge but also informs our choices as consumers and professionals in various industries.
在科技和工程的世界中,像sweep speed这样的术语在定义性能指标方面起着至关重要的作用。Sweep speed指的是一个系统覆盖或扫描指定区域或体积的速度。这个概念在雷达技术、机器人技术,甚至在消费电子产品如相机和扫描仪等多个领域都特别重要。理解sweep speed可以显著增强我们对设备如何操作及其执行任务效率的理解。例如,在雷达系统中,sweep speed决定了雷达扫描区域内物体或信号的速度。更高的sweep speed允许更快地检测移动物体,这在空中交通管制或天气监测等应用中至关重要。在这些情况下,快速收集数据的能力可能意味着安全与灾难之间的区别。同样,在机器人技术中,sweep speed会影响制造过程中机器人手臂的有效性。具有高sweep speed的机器人可以迅速穿越其工作空间,提高生产力并减少周期时间。这在时间就是金钱的行业中尤为重要,例如汽车装配线,每一秒都至关重要。此外,在摄影中,相机的sweep speed会影响其捕捉运动的能力。例如,具有快速sweep speed的相机能够拍摄清晰的快速移动对象,非常适合体育摄影或野生动物摄影。摄影师通常依赖这一能力,以确保他们不会错过那些定义艺术的短暂瞬间。理解sweep speed的影响不仅限于技术规格;它还涉及到认识到这些速度对用户体验和整体满意度的影响。例如,考虑办公室环境中的扫描设备。如果sweep speed太慢,员工可能会因延迟而感到沮丧,从而导致生产力下降。相反,具有最佳sweep speed的设备可以简化工作流程,提高效率。此外,sweep speed的概念并不限于物理设备。在软件应用程序中,快速处理数据的算法可以被视为具有高sweep speed。例如,在视频游戏中,游戏对玩家输入的响应速度可以被视为一种sweep speed,更快的响应使得游戏体验更加沉浸和愉悦。总之,sweep speed这个术语涵盖了不同领域的多种应用,从雷达技术到机器人技术再到摄影。通过理解sweep speed,我们可以欣赏设备功能的复杂性及其对我们日常生活的影响。随着科技的不断发展,优化sweep speed以满足日益快节奏世界的需求的重要性也将不断上升。认识到sweep speed的重要性不仅增强了我们的知识,也为我们作为消费者和各行业专业人士的选择提供了信息。
