obstacle-avoidance sonar

简明释义

避碰声纳

英英释义

例句

1.In underwater exploration, obstacle-avoidance sonar helps submarines avoid collisions with submerged rocks.

在水下探测中，障碍物避免声纳帮助潜艇避免与水下岩石相撞。

2.Robotic vacuum cleaners use obstacle-avoidance sonar to detect furniture and other obstacles in their path.

机器人吸尘器使用障碍物避免声纳来检测路径中的家具和其他障碍物。

3.Fishermen utilize obstacle-avoidance sonar technology to find safe routes through rocky waters.

渔民利用障碍物避免声纳技术寻找穿越岩石水域的安全路线。

4.The autonomous drone is equipped with obstacle-avoidance sonar to navigate safely through dense forests.

这款自主无人机配备了障碍物避免声纳，可以安全穿越茂密的森林。

5.The new model of the delivery robot includes obstacle-avoidance sonar for better navigation in crowded areas.

新款送货机器人配备了障碍物避免声纳，以便在拥挤区域更好地导航。

作文

In the world of technology, the development of autonomous vehicles has become a hot topic. One of the key components that enable these vehicles to navigate safely is the obstacle-avoidance sonar. This advanced technology plays a crucial role in helping vehicles detect and avoid obstacles in their path, ensuring a smoother and safer driving experience.The obstacle-avoidance sonar system works by emitting sound waves that bounce off nearby objects. When these sound waves hit an obstacle, they reflect back to the sonar device, which then calculates the distance to that object based on the time it took for the sound waves to return. This information is vital for the vehicle's navigation system, allowing it to make real-time decisions about speed, direction, and braking.One of the most significant advantages of using obstacle-avoidance sonar is its ability to function in various environmental conditions. Unlike cameras or LIDAR systems, which can be affected by poor lighting or adverse weather, sonar operates effectively in darkness and can penetrate through rain or fog. This reliability makes it an essential tool for ensuring safety in unpredictable driving situations.Moreover, the integration of obstacle-avoidance sonar into modern vehicles has enhanced their overall intelligence. With the help of this technology, cars can autonomously navigate through complex environments, such as busy city streets or crowded parking lots. The sonar system constantly scans the surroundings, providing the vehicle with a real-time map of potential hazards. As a result, the car can react quickly to sudden changes, such as a pedestrian stepping onto the road or another vehicle merging into its lane.The implications of obstacle-avoidance sonar technology extend beyond personal vehicles. It is also being utilized in various industries, including robotics and marine navigation. For instance, underwater drones equipped with sonar can explore ocean depths while avoiding obstacles like rocks and coral reefs. Similarly, industrial robots use this technology to navigate around workspaces without colliding with humans or other machines.As we look to the future, the evolution of obstacle-avoidance sonar will likely lead to even more sophisticated applications. Researchers are continually improving the accuracy and efficiency of sonar systems, aiming for greater precision in obstacle detection and avoidance. This progress will not only enhance the safety of autonomous vehicles but also open new avenues for innovation in multiple fields.In conclusion, the obstacle-avoidance sonar technology represents a significant advancement in the quest for safer and more efficient navigation. By enabling vehicles to detect and avoid obstacles in real time, this technology is paving the way for a future where autonomous driving becomes a norm rather than an exception. As we embrace these innovations, it is essential to recognize the impact of technologies like sonar on our daily lives and the potential they hold for transforming transportation as we know it.

在科技的世界里，自动驾驶汽车的发展已成为一个热门话题。使这些车辆安全导航的关键组成部分之一就是障碍物避免声纳。这一先进技术在帮助车辆检测和避免路径中的障碍物方面发挥着至关重要的作用，确保了更平稳、更安全的驾驶体验。障碍物避免声纳系统通过发射声波来工作，这些声波会在附近物体上反弹。当这些声波撞击障碍物时，它们会反射回声纳设备，后者根据声波返回所需的时间计算到该物体的距离。这些信息对车辆的导航系统至关重要，使其能够实时做出关于速度、方向和刹车的决策。使用障碍物避免声纳的一个显著优势是它能够在各种环境条件下发挥作用。与可能受到光线不足或恶劣天气影响的摄像头或激光雷达系统不同，声纳在黑暗中有效工作，并可以穿透雨雾。因此，这种可靠性使其成为确保在不可预测的驾驶情况下安全的重要工具。此外，将障碍物避免声纳集成到现代车辆中增强了它们的整体智能。借助这项技术，汽车可以自主地在复杂的环境中导航，例如繁忙的城市街道或拥挤的停车场。声纳系统不断扫描周围环境，为车辆提供潜在危险的实时地图。因此，汽车可以快速应对突发变化，例如行人走上道路或另一辆车并入车道。障碍物避免声纳技术的影响超越了个人车辆。它还被应用于多个行业，包括机器人和海洋导航。例如，配备声纳的水下无人机可以在探索海洋深处时避开岩石和珊瑚礁等障碍物。同样，工业机器人利用这项技术在工作空间中导航，而不会与人类或其他机器发生碰撞。展望未来，障碍物避免声纳的演变可能会导致更复杂的应用。研究人员不断提高声纳系统的准确性和效率，旨在提高障碍物检测和避免的精确度。这一进展不仅将增强自动驾驶汽车的安全性，还将为多个领域的创新开辟新的途径。总之，障碍物避免声纳技术代表了在追求更安全、更高效导航方面的重要进展。通过使车辆能够实时检测和避免障碍物，这项技术正在为一个自动驾驶成为常态而非例外的未来铺平道路。当我们接受这些创新时，认识到像声纳这样的技术对我们日常生活的影响以及它们在改变我们所知的交通运输方面所蕴含的潜力是至关重要的。