automatic following control

简明释义

自动跟踪控制;

英英释义

例句

1.The new car model features advanced automatic following control that enhances safety during highway driving.

这款新车型配备了先进的自动跟随控制，提高了高速驾驶的安全性。

2.In robotics, automatic following control allows drones to maintain a set distance from their target.

在机器人技术中，自动跟随控制使无人机能够与目标保持一定距离。

3.The smart vacuum cleaner uses automatic following control to navigate around furniture without bumping into it.

这款智能吸尘器使用自动跟随控制在家具周围导航，避免碰撞。

4.The drone's automatic following control system is perfect for capturing dynamic aerial footage.

该无人机的自动跟随控制系统非常适合拍摄动态航拍画面。

5.With automatic following control, the delivery robot can follow pedestrians while avoiding obstacles.

通过自动跟随控制，送货机器人可以在避开障碍物的同时跟随行人。

作文

In the realm of modern technology, the term automatic following control refers to a sophisticated system that enables machines or vehicles to follow a predetermined path or trajectory without the need for constant human intervention. This concept has gained significant traction in various fields, including robotics, autonomous vehicles, and industrial automation. The essence of automatic following control lies in its ability to enhance efficiency and safety by minimizing human error and optimizing operational performance.The applications of automatic following control are vast and varied. For instance, in the automotive industry, self-driving cars utilize this technology to navigate through traffic, maintain safe distances from other vehicles, and adhere to traffic regulations. By employing advanced sensors and algorithms, these vehicles can analyze their surroundings in real-time and make informed decisions, thereby ensuring a smooth and safe driving experience. This not only alleviates the stress of driving for individuals but also contributes to reducing accidents caused by human mistakes.Moreover, automatic following control is also prevalent in the field of robotics, particularly in warehouse automation. Robots equipped with this technology can efficiently transport goods from one location to another, following designated paths while avoiding obstacles. This capability significantly boosts productivity in warehouses and distribution centers, allowing businesses to meet the increasing demands of e-commerce and logistics.Another critical application of automatic following control is in agriculture, where it is used in precision farming techniques. Tractors and other agricultural machinery can be programmed to follow specific routes in fields, ensuring uniform planting, fertilization, and harvesting. This not only enhances crop yields but also minimizes waste and reduces the environmental impact of farming practices.However, the implementation of automatic following control is not without challenges. One of the primary concerns is the reliance on technology, which can malfunction or be vulnerable to external factors such as weather conditions or technical glitches. Additionally, there are ethical considerations regarding the use of autonomous systems, particularly in situations where human lives may be at risk. Therefore, it is crucial for developers and engineers to prioritize safety measures and establish robust protocols to mitigate potential risks associated with automatic following control systems.In conclusion, the concept of automatic following control represents a significant advancement in technology, offering numerous benefits across various industries. As we continue to embrace automation and artificial intelligence, understanding and improving this technology will play a vital role in shaping the future of transportation, logistics, and many other sectors. The key to harnessing the full potential of automatic following control lies in balancing innovation with responsibility, ensuring that while we strive for efficiency and convenience, we also prioritize safety and ethical considerations in our technological pursuits.

在现代科技领域，术语自动跟随控制指的是一种复杂的系统，使机器或车辆能够在没有持续人类干预的情况下遵循预定的路径或轨迹。这个概念在机器人技术、自动驾驶汽车和工业自动化等多个领域得到了广泛关注。自动跟随控制的本质在于其通过最小化人为错误和优化操作性能来提高效率和安全性。自动跟随控制的应用广泛而多样。例如，在汽车工业中，自驾车利用这一技术在交通中导航，保持与其他车辆的安全距离，并遵守交通规则。通过使用先进的传感器和算法，这些车辆能够实时分析周围环境并做出明智的决策，从而确保平稳安全的驾驶体验。这不仅减轻了个人驾驶的压力，还帮助减少因人为失误造成的事故。此外，自动跟随控制在机器人领域也很常见，特别是在仓库自动化中。配备此技术的机器人可以高效地将货物从一个地方运输到另一个地方，沿着指定路径行驶，同时避免障碍物。这种能力显著提高了仓库和配送中心的生产力，使企业能够满足电子商务和物流日益增长的需求。自动跟随控制的另一个重要应用是在农业中，它被用于精准农业技术。拖拉机和其他农业机械可以被编程为在田地中遵循特定路线，确保均匀播种、施肥和收割。这不仅提高了作物产量，还最小化了浪费，减少了农业实践对环境的影响。然而，实施自动跟随控制并非没有挑战。主要担忧之一是对技术的依赖，技术可能出现故障或容易受到天气条件或技术故障等外部因素的影响。此外，关于使用自主系统的伦理问题也值得关注，尤其是在涉及人类生命风险的情况下。因此，开发者和工程师必须优先考虑安全措施，建立健全的协议，以降低与自动跟随控制系统相关的潜在风险。总之，自动跟随控制的概念代表了技术的一项重大进步，为各个行业提供了众多好处。随着我们继续拥抱自动化和人工智能，理解和改进这一技术将在塑造未来交通、物流及许多其他领域中发挥至关重要的作用。充分利用自动跟随控制的潜力的关键在于在创新与责任之间取得平衡，确保在追求效率和便利的同时，我们也优先考虑在技术追求中的安全和伦理考量。