active homing

简明释义

主动式自导

英英释义

例句

1.Using active homing, the missile can adjust its path mid-flight to reach the target accurately.

通过使用主动回归，导弹可以在飞行中调整路径以准确到达目标。

2.In search and rescue operations, active homing is essential for locating lost individuals.

在搜索和救援行动中，主动回归对于定位失踪人员至关重要。

3.The drone utilizes active homing to navigate back to its launch point automatically.

这款无人机利用主动回归功能自动导航回到发射点。

4.The smart pet collar features active homing to help owners find their pets quickly.

这款智能宠物项圈具有主动回归功能，可以帮助主人快速找到他们的宠物。

5.The robot is equipped with active homing capabilities that allow it to return to a designated location.

该机器人配备了主动回归功能，可以返回指定位置。

作文

In today's rapidly advancing technological landscape, the concept of active homing has gained significant attention. This term refers to a method used in various fields, particularly in navigation and tracking systems, where a device actively seeks out and locks onto a target. Unlike passive systems, which merely detect signals or objects without interaction, active homing involves sending out signals or waves that bounce back from the target, allowing for precise location tracking and engagement. This technology is widely utilized in military applications, such as missiles and drones, but its implications extend far beyond the battlefield.One of the most prominent examples of active homing can be found in modern missile guidance systems. These systems employ sophisticated radar and sensor technologies to identify and pursue targets with remarkable accuracy. As the missile approaches its target, it continuously emits signals that help it adjust its trajectory in real-time. This capability not only enhances the effectiveness of military operations but also minimizes collateral damage by allowing for pinpoint strikes on specific targets.Furthermore, active homing is not limited to military use; it also plays a crucial role in civilian applications. For instance, autonomous vehicles rely on similar principles to navigate their surroundings. By using a combination of radar, lidar, and cameras, these vehicles can actively map their environment, detect obstacles, and make split-second decisions. This technology is paving the way for safer and more efficient transportation systems, ultimately reducing accidents and improving traffic flow.In the realm of telecommunications, active homing is integral to the functioning of various devices that require constant connectivity. Smartphones and other wireless devices often utilize active signal searching techniques to maintain a stable connection to networks. This ensures that users can access data and communicate seamlessly, regardless of their location. The ability to actively search for and connect to the strongest available signal exemplifies how active homing enhances user experience in our increasingly connected world.Moreover, the implications of active homing extend to environmental monitoring and conservation efforts. Researchers are developing advanced tracking systems that utilize this technology to monitor wildlife populations and their habitats. By actively tracking animals, scientists can gather valuable data on migration patterns, breeding habits, and habitat usage. This information is vital for implementing effective conservation strategies and ensuring the survival of endangered species.In conclusion, the concept of active homing embodies the intersection of innovation and practicality across various sectors. From military applications to autonomous vehicles and wildlife conservation, this technology demonstrates the power of active engagement in tracking and navigation. As we continue to explore the potential of active homing, it is essential to consider both the benefits and ethical implications of its use. Embracing this technology responsibly will undoubtedly lead to advancements that improve our lives and protect our planet.

在当今快速发展的技术领域，主动寻向这一概念引起了广泛关注。这个术语指的是在各种领域，特别是在导航和跟踪系统中使用的一种方法，其中设备主动寻找并锁定目标。与被动系统不同，被动系统只是探测信号或物体而不进行交互，主动寻向涉及发出信号或波，这些信号或波会从目标反弹回来，从而实现精确的定位跟踪和接触。这项技术广泛应用于军事领域，例如导弹和无人机，但其影响远不止于战场。在现代导弹制导系统中，主动寻向的一个突出例子可以找到。这些系统利用复杂的雷达和传感器技术来识别和追踪目标，具有惊人的准确性。当导弹接近目标时，它不断发射信号，帮助其实时调整轨迹。这种能力不仅增强了军事行动的有效性，而且通过允许对特定目标进行精准打击，最小化了附带损害。此外，主动寻向并不限于军事用途；它在民用应用中也发挥着至关重要的作用。例如，自动驾驶车辆依赖类似的原理来导航其周围环境。通过结合雷达、激光雷达和摄像头，这些车辆能够主动绘制其环境，检测障碍物并做出瞬间决策。这项技术正在为更安全、更高效的交通系统铺平道路，最终减少事故并改善交通流量。在电信领域，主动寻向是各种需要持续连接的设备正常运行的核心。智能手机和其他无线设备通常利用主动信号搜索技术来保持与网络的稳定连接。这确保用户无论身在何处都可以无缝访问数据和进行通信。主动搜索并连接到最强可用信号的能力体现了主动寻向如何提升我们日益互联世界中的用户体验。此外，主动寻向的影响还扩展到环境监测和保护工作。研究人员正在开发利用这项技术的先进跟踪系统，以监测野生动物种群及其栖息地。通过主动跟踪动物，科学家可以收集有关迁徙模式、繁殖习性和栖息地使用的宝贵数据。这些信息对于实施有效的保护策略和确保濒危物种的生存至关重要。总之，主动寻向的概念体现了创新与实用性在各个领域的交汇。从军事应用到自动驾驶车辆再到野生动物保护，这项技术展示了在跟踪和导航中主动参与的力量。随着我们继续探索主动寻向的潜力，考虑其使用的好处和伦理影响至关重要。负责任地拥抱这项技术无疑将导致改善我们生活和保护我们星球的进步。