semi-automatic following

简明释义

半自动跟踪

英英释义

例句

1.The software includes a semi-automatic following mode that assists users in navigating complex environments.

该软件包含一个半自动跟随模式，帮助用户在复杂环境中导航。

2.In robotics, semi-automatic following enables the robot to follow a path with minimal human intervention.

在机器人技术中，半自动跟随使机器人能够在最小人类干预下沿路径行驶。

3.The drone utilizes semi-automatic following to maintain a safe distance from the user while capturing aerial footage.

这架无人机利用半自动跟随来保持与用户的安全距离，同时拍摄空中画面。

4.The camera has a feature for semi-automatic following that allows it to track moving subjects smoothly.

这款相机具有半自动跟随功能，可以平滑地跟踪移动的对象。

5.During the experiment, the vehicle demonstrated semi-automatic following by adjusting its speed based on the lead car's movements.

在实验中，该车辆通过根据前车的运动调整速度，展示了半自动跟随的能力。

作文

In our rapidly advancing technological world, the concept of automation has become increasingly prevalent. One fascinating aspect of this trend is the idea of semi-automatic following, which refers to a system that allows for a combination of manual control and automated assistance in various tasks. This hybrid approach can be observed in numerous applications, from robotics to transportation. Understanding the implications and functionalities of semi-automatic following can provide valuable insights into its potential benefits and challenges.To begin with, let’s explore the definition of semi-automatic following. In essence, it describes a mode of operation where a user retains some level of control over a process while the system assists by automating certain functions. For instance, in the context of autonomous vehicles, semi-automatic following enables a driver to maintain control of the vehicle while the car’s technology manages aspects like speed regulation and lane positioning. This balance between human oversight and machine efficiency enhances safety and comfort, making driving less stressful, especially in congested traffic conditions.Moreover, semi-automatic following is not limited to transportation. In the field of robotics, this concept can be seen in robotic vacuum cleaners that allow users to set cleaning schedules while still enabling the device to navigate autonomously. Users can intervene when necessary, adjusting the robot's path or directing it to specific areas, thus exemplifying the flexibility and practicality of this approach.The advantages of semi-automatic following are manifold. Firstly, it increases efficiency by allowing machines to handle repetitive or complex tasks while freeing up human operators to focus on more critical decision-making processes. For example, in manufacturing, assembly lines equipped with semi-automatic following systems can improve productivity by allowing workers to oversee multiple machines at once, ensuring that operations run smoothly without constant manual input.Secondly, this method can enhance safety. By allowing machines to take over certain functions, semi-automatic following reduces the risk of human error in high-stakes environments. In aviation, for example, autopilot systems utilize semi-automatic following to assist pilots during long flights, enabling them to manage navigation and monitor systems while still being prepared to take full control if any issues arise.However, there are challenges associated with semi-automatic following. One major concern is the potential for over-reliance on technology. As users become accustomed to automated assistance, they may lose critical skills or situational awareness, leading to dangerous situations if the system fails. Therefore, it is essential to strike a balance between automation and human involvement, ensuring that users remain engaged and capable of taking control when necessary.Additionally, the integration of semi-automatic following systems raises questions about accountability. In scenarios where a machine malfunctions or makes an error, determining responsibility can become complex. This issue underscores the importance of establishing clear guidelines and regulations surrounding the use of automated technologies.In conclusion, the concept of semi-automatic following presents a compelling intersection of human capability and technological advancement. By allowing for a collaborative relationship between humans and machines, this approach has the potential to revolutionize various industries, enhancing efficiency, safety, and user experience. However, as we continue to embrace automation, it is crucial to remain vigilant about the challenges it poses, ensuring that technology serves as a tool for empowerment rather than a crutch that diminishes our abilities. As we move forward, understanding and mastering the principles of semi-automatic following will be vital in navigating the future of work and technology effectively.

在我们快速发展的技术世界中，自动化的概念变得越来越普遍。这一趋势中一个引人入胜的方面是“半自动跟随”的想法，这指的是一种允许手动控制与自动辅助相结合的系统。在从机器人到交通运输的各种任务中，这种混合方法都可以观察到。理解“半自动跟随”的含义和功能可以为其潜在的好处和挑战提供有价值的见解。首先，让我们探讨“半自动跟随”的定义。本质上，它描述了一种操作模式，在这种模式下，用户在某个过程中保持一定程度的控制，而系统通过自动化某些功能来提供帮助。例如，在自动驾驶汽车的背景下，“半自动跟随”使司机能够保持对车辆的控制，同时车辆的技术管理速度调节和车道定位等方面。这种人类监督与机器效率之间的平衡提高了安全性和舒适度，使驾驶在拥挤的交通条件下变得不那么紧张。此外，“半自动跟随”并不限于交通运输。在机器人领域，这一概念可以在允许用户设置清洁时间表的机器人吸尘器中看到，同时设备也能自主导航。用户可以在必要时进行干预，调整机器人的路径或指导其到特定区域，从而体现了这种方法的灵活性和实用性。“半自动跟随”的优点是多方面的。首先，它通过允许机器处理重复或复杂的任务，同时释放人类操作员专注于更关键的决策过程，提高了效率。例如，在制造业中，配备“半自动跟随”系统的装配线可以通过让工人监督多台机器，确保操作顺利进行而无需不断的手动输入，从而提高生产力。其次，这种方法可以增强安全性。通过允许机器接管某些功能，“半自动跟随”降低了高风险环境中人为错误的风险。在航空领域，例如，自动驾驶仪系统利用“半自动跟随”来协助飞行员在长途飞行中，允许他们管理导航和监控系统，同时仍然准备在出现任何问题时完全控制。然而，与“半自动跟随”相关的挑战也是存在的。一个主要的担忧是对技术的过度依赖。随着用户习惯于自动化的帮助，他们可能会失去关键技能或情境意识，如果系统失败，可能导致危险情况。因此，在自动化与人类参与之间找到平衡至关重要，确保用户保持参与并能够在必要时掌控。此外，集成“半自动跟随”系统还引发了关于责任的问题。在机器发生故障或出错的情况下，确定责任可能变得复杂。这一问题强调了建立围绕自动化技术使用的明确指南和法规的重要性。总之，“半自动跟随”的概念呈现出人类能力与技术进步的引人注目的交汇点。通过允许人类与机器之间建立合作关系，这种方法有潜力在各个行业中带来革命性的变化，提高效率、安全性和用户体验。然而，随着我们继续接受自动化，保持对其所带来的挑战的警惕至关重要，确保技术作为赋能的工具，而不是削弱我们能力的拐杖。随着我们向前发展，理解和掌握“半自动跟随”的原则将在有效导航工作和技术的未来中至关重要。