obstacle avoidance laser radar

简明释义

激光防撞雷达

英英释义

例句

1.In robotics, obstacle avoidance laser radar is essential for ensuring that robots can move without colliding with objects.

在机器人技术中，障碍物避免激光雷达对于确保机器人能够在不与物体碰撞的情况下移动至关重要。

2.The drone is equipped with obstacle avoidance laser radar to prevent crashes during flight.

这架无人机配备了障碍物避免激光雷达以防止飞行过程中发生碰撞。

3.The autonomous vehicle uses obstacle avoidance laser radar to navigate safely through crowded streets.

这辆自动驾驶汽车使用障碍物避免激光雷达安全地穿过拥挤的街道。

4.Using obstacle avoidance laser radar, the delivery robot can efficiently navigate through complex environments.

通过使用障碍物避免激光雷达，送货机器人可以高效地在复杂环境中导航。

5.The construction site vehicles are fitted with obstacle avoidance laser radar to enhance safety.

工地上的车辆装配有障碍物避免激光雷达以增强安全性。

作文

In recent years, the advancement of technology has significantly impacted various industries, particularly in the fields of robotics and autonomous vehicles. One of the most crucial technologies that have emerged is the obstacle avoidance laser radar, which plays a vital role in ensuring safety and efficiency in navigation. This sophisticated system utilizes laser beams to detect obstacles in real-time, allowing vehicles or robots to maneuver safely around them. The integration of obstacle avoidance laser radar into autonomous systems has revolutionized how machines perceive their environment and react accordingly.The fundamental principle behind obstacle avoidance laser radar is based on the emission of laser pulses that bounce off surrounding objects. By measuring the time it takes for the laser beams to return, the system can accurately calculate the distance to various obstacles. This data is then processed to create a detailed map of the environment, enabling the machine to identify potential hazards and adjust its path to avoid collisions. In essence, obstacle avoidance laser radar acts as the eyes of an autonomous system, providing critical information for safe navigation.One of the most significant advantages of using obstacle avoidance laser radar is its ability to function effectively in diverse conditions. Unlike traditional cameras that may struggle in low-light environments or poor weather conditions, laser radar operates efficiently regardless of visibility. This capability is particularly important for autonomous vehicles, which must navigate through various terrains and weather scenarios. As a result, the implementation of obstacle avoidance laser radar enhances the reliability and safety of these systems, making them more suitable for real-world applications.Moreover, the use of obstacle avoidance laser radar extends beyond just vehicles. In industrial settings, robots equipped with this technology can operate safely alongside human workers. These robots can detect when a person enters their workspace and adjust their movements accordingly, reducing the risk of accidents. This collaborative approach between humans and machines is becoming increasingly common as industries strive for greater efficiency and safety.Despite its many benefits, the integration of obstacle avoidance laser radar into existing systems does come with challenges. The cost of implementing this technology can be significant, especially for smaller companies looking to adopt autonomous solutions. Additionally, there is a need for continuous improvement in the algorithms used to process the data collected by laser radar systems. As technology evolves, so too must the methods used to interpret and act on the information provided by obstacle avoidance laser radar.In conclusion, the development and application of obstacle avoidance laser radar represent a significant leap forward in the field of automation and robotics. Its ability to provide real-time obstacle detection and navigation capabilities has transformed how machines interact with their surroundings. As technology continues to advance, we can expect to see even greater innovations in this area, leading to safer and more efficient autonomous systems in the future. The impact of obstacle avoidance laser radar on various industries will undoubtedly shape the way we think about and utilize technology in our daily lives.

近年来，科技的进步显著影响了各个行业，尤其是在机器人和自动驾驶汽车领域。出现的最关键技术之一是障碍物避免激光雷达，它在确保导航的安全性和效率方面发挥着重要作用。这种复杂的系统利用激光束实时探测障碍物，使车辆或机器人能够安全地绕过它们。将障碍物避免激光雷达集成到自主系统中彻底改变了机器如何感知其环境并相应反应。障碍物避免激光雷达的基本原理是发射激光脉冲，这些脉冲会反射到周围的物体上。通过测量激光束返回所需的时间，系统可以准确计算与各种障碍物的距离。然后处理这些数据以创建环境的详细地图，使机器能够识别潜在的危险并调整路径以避免碰撞。归根结底，障碍物避免激光雷达充当自主系统的“眼睛”，提供安全导航所需的关键信息。使用障碍物避免激光雷达的最大优势之一是它能够在多种条件下有效运行。与可能在低光环境或恶劣天气条件下挣扎的传统摄像头不同，激光雷达在可见度不佳的情况下也能高效运作。这一能力对于自动驾驶汽车尤为重要，因为它们必须在各种地形和天气场景中导航。因此，实施障碍物避免激光雷达增强了这些系统的可靠性和安全性，使它们更适合于实际应用。此外，障碍物避免激光雷达的使用不仅限于车辆。在工业环境中，配备这种技术的机器人可以与人类工人安全地协作。这些机器人能够检测到有人进入它们的工作空间，并相应地调整其运动，从而降低事故风险。这种人机协作的方法在各行业中越来越普遍，因为行业努力提高效率和安全性。尽管有许多好处，但将障碍物避免激光雷达集成到现有系统中确实面临挑战。实施这项技术的成本可能很高，尤其是对于希望采用自主解决方案的小型公司。此外，需要不断改进用于处理激光雷达系统收集的数据的算法。随着技术的发展，解读和处理障碍物避免激光雷达提供的信息的方法也必须不断改进。总之，障碍物避免激光雷达的发展和应用代表了自动化和机器人领域的一次重大飞跃。它提供的实时障碍物检测和导航能力改变了机器与其周围环境的互动方式。随着技术的不断进步，我们可以期待在这一领域看到更大的创新，从而在未来实现更安全、更高效的自主系统。障碍物避免激光雷达对各行各业的影响无疑将塑造我们在日常生活中思考和利用技术的方式。