automatic track follower

简明释义

航迹自动跟踪仪

英英释义

例句

1.The automatic track follower technology is crucial for autonomous vehicles to maintain their lanes.

对于自动驾驶汽车来说，自动轨道跟随器技术对保持车道至关重要。

2.In robotics, the automatic track follower allows the robot to navigate along predefined paths.

在机器人技术中，自动轨道跟随器使机器人能够沿着预定路径导航。

3.The train's automatic track follower ensures it stays on course even in adverse weather conditions.

火车的自动轨道跟随器确保它在恶劣天气条件下仍能保持在轨道上。

4.With the automatic track follower, the drone can follow a specific route without manual control.

使用自动轨道跟随器，无人机可以在没有手动控制的情况下沿特定路线飞行。

5.The automatic track follower in this model train system enhances its reliability and performance.

这个模型火车系统中的自动轨道跟随器提高了其可靠性和性能。

作文

In the realm of modern technology, the term automatic track follower refers to a device or system designed to follow a predetermined path or track without requiring manual intervention. This innovative concept has been widely adopted in various fields, including robotics, manufacturing, and transportation. The ability of an automatic track follower to navigate along a specific route with precision and efficiency has revolutionized the way we approach tasks that involve movement and positioning.One of the most common applications of automatic track followers can be found in the world of robotics. For instance, autonomous robots equipped with sensors and algorithms can detect and follow lines or tracks on the ground. These robots are often used in warehouses for transporting goods from one point to another. By utilizing an automatic track follower, companies can streamline their operations, reduce labor costs, and increase productivity.Moreover, the use of automatic track followers extends beyond robotics. In the manufacturing sector, automated guided vehicles (AGVs) employ this technology to move materials efficiently within factories. AGVs can follow designated paths marked by tracks or magnetic strips, ensuring that products are transported safely and accurately. This not only enhances the workflow but also minimizes the risk of accidents in busy industrial environments.In addition to industrial applications, automatic track followers have also made their way into the transportation industry. For example, some trains utilize this technology to maintain their course on railway tracks. By integrating advanced tracking systems, trains can optimize their speed and improve safety measures. This is particularly important in high-speed rail systems, where precision is crucial for passenger safety and overall efficiency.The development of automatic track followers has also sparked interest in the field of smart cities. As urban areas become increasingly congested, the need for efficient transportation solutions has never been more pressing. Autonomous vehicles that utilize automatic track followers could potentially alleviate traffic issues by providing reliable public transport options. These vehicles can operate on fixed routes, reducing the number of cars on the road and promoting sustainable urban mobility.Furthermore, the implementation of automatic track followers in agriculture is gaining traction. Drones and automated tractors equipped with tracking technology can follow specific paths while monitoring crops and performing tasks such as planting, watering, and harvesting. This not only increases efficiency but also allows for precise farming practices that can lead to higher yields and reduced resource waste.In conclusion, the concept of automatic track follower has transformed various industries by enabling automation and improving operational efficiency. From robotics to transportation and agriculture, the applications of this technology are vast and varied. As we continue to innovate and develop smarter systems, the role of automatic track followers will undoubtedly expand, paving the way for a more automated and efficient future. Understanding and leveraging this technology will be essential for businesses and societies aiming to thrive in an increasingly competitive landscape.

在现代科技领域，术语自动轨道追踪器指的是一种设备或系统，旨在无需手动干预即可沿着预定路径或轨道行驶。这个创新概念已被广泛应用于机器人技术、制造业和交通运输等多个领域。自动轨道追踪器以精确和高效的方式沿特定路线导航的能力，彻底改变了我们处理涉及移动和定位任务的方法。自动轨道追踪器最常见的应用之一可以在机器人世界中找到。例如，配备传感器和算法的自主机器人能够检测并跟随地面上的线条或轨道。这些机器人通常用于仓库中，将货物从一个地方运输到另一个地方。通过利用自动轨道追踪器，公司可以简化运营，降低劳动成本，提高生产力。此外，自动轨道追踪器的使用超越了机器人技术。在制造行业，自动导引车（AGV）采用这一技术在工厂内高效移动材料。AGV可以沿着标记有轨道或磁条的指定路径行驶，确保产品安全准确地运输。这不仅增强了工作流程，还最大限度地降低了繁忙工业环境中发生事故的风险。除了工业应用，自动轨道追踪器也逐渐进入交通运输行业。例如，一些火车利用这项技术在铁路轨道上保持其行驶方向。通过整合先进的追踪系统，火车可以优化速度并提高安全措施。这在高速铁路系统中尤为重要，因为精确性对于乘客安全和整体效率至关重要。自动轨道追踪器的发展还引发了对智慧城市领域的关注。随着城市地区越来越拥挤，对高效交通解决方案的需求比以往任何时候都更为紧迫。利用自动轨道追踪器的自主车辆可能会通过提供可靠的公共交通选项来缓解交通问题。这些车辆可以在固定路线运行，减少道路上的汽车数量，促进可持续的城市出行。此外，自动轨道追踪器在农业中的应用也在不断增长。配备追踪技术的无人机和自动化拖拉机可以在监测作物和执行播种、浇水和收割等任务时沿特定路径行驶。这不仅提高了效率，还允许进行精准农业实践，从而提高产量并减少资源浪费。总之，自动轨道追踪器的概念通过实现自动化和提高运营效率，改变了多个行业。从机器人技术到交通运输和农业，这项技术的应用范围广泛多样。随着我们不断创新和开发更智能的系统，自动轨道追踪器的角色无疑会扩展，为更自动化和高效的未来铺平道路。理解和利用这一技术对希望在日益竞争的环境中蓬勃发展的企业和社会而言，将是至关重要的。