automatic velocity determination

简明释义

1. 自动速度计算; 2. 自动速度计算地震勘探;

英英释义

例句

1.In robotics, automatic velocity determination is crucial for precise navigation and movement control.

在机器人技术中，自动速度测定对于精确导航和运动控制至关重要。

2.The lab's latest experiment employs automatic velocity determination to analyze fluid dynamics more efficiently.

实验室的最新实验采用自动速度测定来更有效地分析流体动力学。

3.With automatic velocity determination, the drone can maintain a steady altitude and speed during flight.

通过自动速度测定，无人机可以在飞行过程中保持稳定的高度和速度。

4.The new software features automatic velocity determination, allowing for real-time speed calculations during simulations.

新软件具有自动速度测定功能，可以在模拟过程中实时计算速度。

5.The vehicle's onboard computer uses automatic velocity determination to adjust the throttle and braking systems.

车辆的车载计算机使用自动速度测定来调整油门和刹车系统。

作文

In the realm of modern technology, the concept of automatic velocity determination plays a crucial role in various applications, especially in fields such as robotics, automotive engineering, and aerospace. The ability to accurately measure the speed of an object without manual intervention has transformed how we approach motion analysis and control systems. This essay delves into the significance of automatic velocity determination and its practical implications in our daily lives.To begin with, automatic velocity determination refers to the process of calculating the speed of an object using automated systems and algorithms. Traditional methods of measuring velocity often required manual input or physical measurement tools, which could lead to inaccuracies and inefficiencies. However, with advancements in technology, sensors and software have been developed to streamline this process. For instance, in the automotive industry, vehicles are now equipped with sophisticated sensors that can automatically determine their speed based on GPS data and other parameters. This not only enhances the driving experience but also improves safety by enabling features such as adaptive cruise control and collision avoidance systems.Furthermore, in robotics, automatic velocity determination is vital for the navigation and movement of robots. Autonomous robots rely on precise speed measurements to maneuver effectively in their environments. By utilizing technologies such as LiDAR and computer vision, these robots can assess their velocity in real-time, allowing them to make informed decisions about their movements. This capability is particularly important in applications like warehouse automation, where robots must navigate complex layouts while avoiding obstacles and optimizing their paths.Another significant application of automatic velocity determination is in the aerospace sector. Aircraft utilize advanced systems that continuously monitor their speed during flight. This information is critical for maintaining safe operating conditions and ensuring fuel efficiency. With the integration of real-time data analytics, pilots and air traffic controllers can make more informed decisions regarding flight paths and speeds, ultimately contributing to safer and more efficient air travel.Moreover, the implications of automatic velocity determination extend beyond industrial applications; they also impact scientific research. In fields such as physics and engineering, accurate velocity measurements are essential for experiments and simulations. Automated systems can provide precise data that researchers need to validate their theories and models, leading to advancements in knowledge and technology.In conclusion, the concept of automatic velocity determination is integral to various technological advancements across multiple industries. By enabling accurate and efficient speed measurements, it enhances safety, improves operational efficiency, and contributes to scientific progress. As we continue to innovate and develop new technologies, the importance of automatic velocity determination will only grow, shaping the future of how we interact with the world around us. Embracing these advancements will undoubtedly lead to a more automated and intelligent society, where speed and efficiency are prioritized in every aspect of life.

在现代科技领域，自动速度测定的概念在各个应用中扮演着至关重要的角色，特别是在机器人技术、汽车工程和航空航天等领域。准确测量物体速度的能力而无需人工干预，已经改变了我们对运动分析和控制系统的处理方式。本文探讨了自动速度测定的重要性及其在我们日常生活中的实际意义。首先，自动速度测定指的是使用自动化系统和算法计算物体速度的过程。传统的速度测量方法通常需要手动输入或物理测量工具，这可能导致不准确和低效。然而，随着技术的进步，传感器和软件的发展使这一过程得以简化。例如，在汽车工业中，车辆现在配备了复杂的传感器，可以根据GPS数据和其他参数自动确定其速度。这不仅增强了驾驶体验，还通过启用自适应巡航控制和碰撞避免系统来提高安全性。此外，在机器人技术中，自动速度测定对于机器人的导航和移动至关重要。自主机器人依赖于精确的速度测量来有效地在其环境中移动。通过利用激光雷达和计算机视觉等技术，这些机器人可以实时评估其速度，从而做出关于其移动的明智决策。这种能力在仓库自动化等应用中尤为重要，机器人必须在复杂的布局中导航，同时避免障碍并优化路径。自动速度测定的另一个重要应用是在航空航天领域。飞机利用先进的系统持续监测其飞行速度。这些信息对于维持安全操作条件和确保燃油效率至关重要。通过实时数据分析的整合，飞行员和空中交通管制员可以更好地就飞行路径和速度做出明智决策，从而最终促进更安全、更高效的航空旅行。此外，自动速度测定的影响超越了工业应用；它还影响科学研究。在物理和工程等领域，准确的速度测量对实验和模拟至关重要。自动化系统可以提供研究人员验证其理论和模型所需的精确数据，从而推动知识和技术的进步。总之，自动速度测定的概念对于多个行业的各种技术进步至关重要。通过实现准确和高效的速度测量，它增强了安全性，提高了操作效率，并促进了科学进步。随着我们不断创新和开发新技术，自动速度测定的重要性只会增加，塑造我们与周围世界互动的未来。拥抱这些进步无疑将导致一个更加自动化和智能的社会，在生活的各个方面优先考虑速度和效率。