bottom tracking

简明释义

海底跟踪

英英释义

例句

1.The new sonar technology improves bottom tracking for underwater exploration.

新型声纳技术改善了底部跟踪在水下探测中的应用。

2.The research team utilized bottom tracking to study sediment movement in the river.

研究小组利用底部跟踪来研究河流中的沉积物运动。

3.With advanced bottom tracking, we can avoid obstacles while dredging.

借助先进的底部跟踪，我们可以在疏浚时避免障碍物。

4.Using bottom tracking, the submarine can navigate more accurately in murky waters.

通过使用底部跟踪，潜艇可以在浑浊水域中更准确地导航。

5.The fishing boat relies on bottom tracking to locate schools of fish near the ocean floor.

这艘渔船依靠底部跟踪来定位海底附近的鱼群。

作文

In the realm of technology, particularly in the fields of robotics and artificial intelligence, the term bottom tracking refers to a method used for monitoring the position and movement of objects on a surface. This technique has gained significant attention in recent years due to its applications in various industries, including logistics, manufacturing, and even autonomous vehicles. Understanding bottom tracking is crucial for anyone interested in the advancements of automation and machine learning.To elaborate, bottom tracking involves the use of sensors and algorithms to detect and follow the contours or movements of an object at its base. For instance, in an automated warehouse, robots equipped with bottom tracking systems can navigate through aisles by continually adjusting their paths based on the location of goods on shelves. This not only enhances efficiency but also minimizes the risk of collisions and accidents.Moreover, bottom tracking plays a vital role in the development of self-driving cars. These vehicles utilize sophisticated technologies to track the road surface and other vehicles around them, ensuring safe navigation. By employing bottom tracking, self-driving cars can make real-time decisions about speed, direction, and braking, contributing to safer travel experiences.The implementation of bottom tracking is not without challenges. One significant hurdle is the need for high precision in sensor data collection. Any inaccuracies in tracking can lead to errors in navigation, which could be detrimental in critical applications such as medical robots or drones used for delivery services. Therefore, ongoing research and development are essential to enhance the reliability of bottom tracking technologies.Additionally, the integration of bottom tracking with other tracking methods, such as GPS and visual tracking, can provide a more comprehensive understanding of an object's environment. This hybrid approach allows for better performance in complex settings where traditional tracking methods may fall short. For example, in outdoor environments, GPS signals can be weak or obstructed, making bottom tracking invaluable for maintaining accurate positioning.In conclusion, bottom tracking is a fundamental concept in the world of automation and robotics. Its ability to monitor and adapt to the movement of objects on surfaces opens up new possibilities for innovation across various sectors. As technology continues to evolve, the importance of mastering bottom tracking will undoubtedly grow, paving the way for more intelligent and efficient systems. Embracing this knowledge is essential for anyone looking to stay ahead in the rapidly changing landscape of technology.

在科技领域，特别是在机器人和人工智能的领域中，术语底部追踪指的是一种用于监测物体在表面上位置和运动的方法。由于其在物流、制造甚至自动驾驶汽车等各个行业的应用，这种技术近年来引起了广泛关注。理解底部追踪对于任何对自动化和机器学习进步感兴趣的人来说都是至关重要的。进一步阐述，底部追踪涉及使用传感器和算法来检测和跟随物体底部的轮廓或运动。例如，在自动化仓库中，配备有底部追踪系统的机器人可以通过不断调整路径来导航过过道，从而根据货架上货物的位置进行操作。这不仅提高了效率，还最小化了碰撞和事故的风险。此外，底部追踪在无人驾驶汽车的发展中也发挥着至关重要的作用。这些车辆利用复杂的技术来追踪路面和周围其他车辆，确保安全导航。通过采用底部追踪，无人驾驶汽车能够实时决定速度、方向和刹车，从而为更安全的旅行体验做出贡献。实施底部追踪并非没有挑战。其中一个重大障碍是需要高精度的传感器数据采集。任何追踪中的不准确性都可能导致导航错误，这在医疗机器人或用于交付服务的无人机等关键应用中可能是有害的。因此，持续的研究和发展对于增强底部追踪技术的可靠性至关重要。此外，将底部追踪与其他追踪方法（如GPS和视觉追踪）相结合，可以提供对物体环境的更全面理解。这种混合方法允许在传统追踪方法可能不足的复杂环境中实现更好的性能。例如，在户外环境中，GPS信号可能较弱或被阻挡，使得底部追踪在保持准确定位方面变得不可或缺。总之，底部追踪是自动化和机器人领域的一个基本概念。它监测和适应物体在表面上运动的能力为各个行业的创新开辟了新可能。随着技术的不断发展，掌握底部追踪的重要性无疑会增加，为更智能和高效的系统铺平道路。拥抱这一知识对任何希望在快速变化的科技格局中保持领先的人来说都是必不可少的。