active homing

简明释义

1. 主动寻的; 2. 主动导航;

英英释义

例句

1.In the event of a signal loss, the device will engage active homing to ensure it finds its way back.

在信号丢失的情况下，设备将启动主动归航以确保它能够找到回来的路。

2.The search and rescue team relied on active homing technology to locate lost hikers in the forest.

搜救队依靠主动归航技术来定位在森林中迷路的徒步旅行者。

3.With active homing, the robot can navigate through complex environments to return to its base.

通过主动归航，机器人可以在复杂环境中导航以返回其基地。

4.The drone utilized active homing to return to its launch point automatically.

无人机利用主动归航自动返回其发射点。

5.The active homing feature in the navigation system allows for precise tracking of the vehicle's location.

导航系统中的主动归航功能允许精确跟踪车辆的位置。

作文

In the realm of technology and navigation, the term active homing refers to a sophisticated method used to track and guide objects towards a target. This technique is widely employed in various fields, including military applications, robotics, and even consumer electronics. The essence of active homing lies in its ability to dynamically adjust the trajectory of a moving object based on real-time feedback from its environment. Unlike passive systems that rely solely on pre-programmed paths, active homing utilizes sensors and communication systems to actively seek out targets, ensuring higher accuracy and efficiency.One of the most notable applications of active homing can be found in missile guidance systems. Modern missiles are equipped with advanced sensors that allow them to detect and lock onto their targets. As the missile approaches, it continuously adjusts its flight path, taking into account factors such as wind speed, target movement, and distance. This capability significantly increases the likelihood of hitting the intended target, making active homing a crucial component of contemporary defense technologies.In addition to military uses, active homing is also prevalent in the field of robotics. Autonomous robots, such as drones and delivery bots, often employ active homing techniques to navigate complex environments. By using a combination of GPS, cameras, and other sensors, these robots can identify obstacles and dynamically alter their routes to reach their destinations safely. This adaptability not only enhances their operational efficiency but also ensures safety in unpredictable environments.Consumer electronics have also embraced the concept of active homing. For instance, smartphone applications that utilize augmented reality (AR) often incorporate active homing features to enhance user experience. When users point their phones at a specific location, the app can provide real-time information and directions, effectively guiding them to their desired destination. This interactive approach exemplifies how active homing can transform everyday tasks into engaging experiences.The success of active homing systems hinges on several key technologies, including artificial intelligence (AI) and machine learning. These technologies enable systems to learn from past experiences and improve their decision-making processes over time. For example, an autonomous vehicle equipped with active homing capabilities can analyze traffic patterns and adjust its driving strategy accordingly, resulting in more efficient travel.Moreover, the integration of active homing with IoT (Internet of Things) devices is paving the way for smarter cities. Imagine a network of interconnected devices that communicate with each other to optimize resource allocation and improve public services. With active homing, these devices can work together to monitor traffic, manage energy consumption, and enhance overall urban living conditions.In conclusion, active homing represents a significant advancement in navigation and tracking technologies. Its applications span various industries, from military to consumer electronics, demonstrating its versatility and effectiveness. As we continue to innovate and develop new technologies, the principles of active homing will undoubtedly play a vital role in shaping the future of automation and connectivity. Understanding this concept not only helps us appreciate the intricacies of modern technology but also inspires us to explore new possibilities in our ever-evolving world.

主动导引这个术语在技术和导航领域中指的是一种用于跟踪和引导物体朝向目标的复杂方法。这种技术广泛应用于多个领域，包括军事应用、机器人技术，甚至消费电子产品。主动导引的本质在于其能够根据实时反馈动态调整移动物体的轨迹。与仅依赖预编程路径的被动系统不同，主动导引利用传感器和通信系统主动寻找目标，从而确保更高的准确性和效率。主动导引的一个显著应用可以在导弹制导系统中找到。现代导弹配备了先进的传感器，使其能够检测和锁定目标。随着导弹的接近，它会不断调整飞行路径，考虑风速、目标移动和距离等因素。这种能力显著提高了击中目标的可能性，使得主动导引成为当代防御技术的关键组成部分。除了军事用途，主动导引在机器人领域也很普遍。自主机器人，如无人机和配送机器人，通常采用主动导引技术来导航复杂环境。通过结合GPS、摄像头和其他传感器，这些机器人能够识别障碍物并动态改变路线，以安全到达目的地。这种适应性不仅提高了它们的操作效率，还确保了在不可预测环境中的安全。消费电子产品也开始采纳主动导引的概念。例如，利用增强现实（AR）的智能手机应用程序通常结合主动导引功能来增强用户体验。当用户将手机指向特定位置时，应用程序能够提供实时信息和方向，有效引导他们到达所需目的地。这种互动方式示范了主动导引如何将日常任务转变为引人入胜的体验。主动导引系统的成功依赖于几项关键技术，包括人工智能（AI）和机器学习。这些技术使系统能够从过去的经验中学习，并随时间改善决策过程。例如，配备主动导引能力的自主车辆可以分析交通模式并相应调整驾驶策略，从而实现更高效的出行。此外，将主动导引与物联网（IoT）设备相结合，为更智能的城市铺平了道路。想象一下，一个互联设备网络相互通信，以优化资源分配和改善公共服务。通过主动导引，这些设备可以协同工作，监测交通、管理能耗，并提升整体城市生活条件。总之，主动导引代表了导航和跟踪技术的重要进步。其应用跨越多个行业，从军事到消费电子，展示了其多样性和有效性。随着我们继续创新和开发新技术，主动导引的原理无疑将在塑造自动化和连接的未来中发挥重要作用。理解这一概念不仅帮助我们欣赏现代技术的复杂性，也激励我们探索在不断发展的世界中新的可能性。