collision avoidance grid

简明释义

避碰网格

英英释义

例句

1.The software update improved the collision avoidance grid accuracy for better safety.

软件更新提高了避撞网格的准确性，以增强安全性。

2.Using a collision avoidance grid, the robot can navigate through crowded spaces without incidents.

通过使用避撞网格，机器人可以在拥挤的空间中安全导航。

3.In autonomous vehicles, the collision avoidance grid helps detect obstacles in real-time.

在自动驾驶汽车中，避撞网格帮助实时检测障碍物。

4.The drone's navigation system utilizes a collision avoidance grid to prevent mid-air accidents.

无人机的导航系统利用避撞网格来防止空中事故。

5.The collision avoidance grid is crucial for ensuring that drones maintain safe distances from each other.

避撞网格对于确保无人机之间保持安全距离至关重要。

作文

In the rapidly evolving world of technology, safety and efficiency have become paramount in various industries. One of the most significant advancements in this regard is the development of systems designed to prevent accidents and enhance operational performance. A notable example of such technology is the collision avoidance grid, which plays a crucial role in many fields, including aviation, automotive, and robotics. This system utilizes a network of sensors and algorithms to detect potential collisions and take necessary actions to avoid them, thereby ensuring the safety of both humans and machines.The concept of a collision avoidance grid can be understood as a framework that integrates multiple data inputs from various sources. For instance, in the context of autonomous vehicles, the grid consists of radar, LiDAR, and camera inputs that continuously monitor the surrounding environment. These sensors work together to create a comprehensive map of the vehicle's surroundings, allowing it to identify obstacles, pedestrians, and other vehicles in real-time. The integration of these technologies enables the vehicle to make informed decisions about its movement, significantly reducing the likelihood of accidents.Moreover, the collision avoidance grid is not limited to just vehicle navigation; it also has applications in air traffic control. In aviation, air traffic controllers utilize a similar grid system to track the positions of aircraft in the sky. By employing advanced radar systems and satellite technology, controllers can ensure that planes maintain safe distances from one another, preventing mid-air collisions. This level of precision is vital for the safety of passengers and crew members alike.Another critical aspect of the collision avoidance grid is its adaptability. As technology advances, these systems can be updated with new algorithms and improved sensor technologies, enhancing their effectiveness over time. For example, machine learning techniques can be integrated into the grid to allow it to learn from past incidents and improve its predictive capabilities. This adaptability is essential in a world where conditions can change rapidly, and the ability to respond effectively is crucial.Furthermore, the implementation of a collision avoidance grid can lead to increased efficiency in operations. In manufacturing environments, for instance, robotic systems equipped with collision avoidance technology can navigate complex workspaces without human intervention. This not only enhances productivity but also reduces the risk of accidents in hazardous environments. By minimizing human error and optimizing machine interactions, businesses can achieve higher levels of safety and efficiency.In conclusion, the collision avoidance grid represents a significant leap forward in safety technology across various industries. Its ability to integrate multiple data sources, adapt to changing conditions, and enhance operational efficiency makes it an invaluable tool in today's fast-paced world. As we continue to innovate and develop smarter systems, the importance of collision avoidance technology will only grow, paving the way for safer and more efficient operations in the future.

在快速发展的科技世界中，安全和效率在各个行业中变得至关重要。其中一个显著的进步是开发旨在防止事故并增强操作性能的系统。一个值得注意的例子就是碰撞避免网格，它在许多领域中发挥着关键作用，包括航空、汽车和机器人技术。该系统利用传感器和算法网络来检测潜在的碰撞，并采取必要措施以避免这些碰撞，从而确保人类和机器的安全。碰撞避免网格的概念可以理解为一个整合来自多个来源的数据输入的框架。例如，在自主车辆的背景下，该网格由雷达、激光雷达和摄像头输入组成，这些输入不断监测周围环境。这些传感器共同工作，创建出车辆周围环境的全面地图，使其能够实时识别障碍物、行人和其他车辆。这些技术的整合使得车辆能够做出明智的移动决策，从而显著降低事故的可能性。此外，碰撞避免网格不仅限于车辆导航；它在空中交通控制中也有应用。在航空领域，空中交通控制人员利用类似的网格系统跟踪空中飞机的位置。通过使用先进的雷达系统和卫星技术，控制人员可以确保飞机之间保持安全距离，从而防止空中碰撞。这种精确度对于乘客和机组人员的安全至关重要。碰撞避免网格的另一个关键方面是其适应性。随着技术的进步，这些系统可以通过新算法和改进的传感器技术进行更新，从而提高其有效性。例如，可以将机器学习技术集成到网格中，使其能够从过去的事件中学习并改善其预测能力。这种适应性在条件变化迅速的世界中至关重要，而有效响应的能力更是关键。此外，实施碰撞避免网格可以提高操作效率。例如，在制造环境中，配备碰撞避免技术的机器人系统可以在复杂的工作空间中自如导航，无需人工干预。这不仅提高了生产力，还减少了在危险环境中发生事故的风险。通过最小化人为错误并优化机器交互，企业可以实现更高水平的安全性和效率。总之，碰撞避免网格代表了各个行业安全技术的重要飞跃。它整合多个数据源、适应变化的条件并提高操作效率的能力，使其成为当今快节奏世界中不可或缺的工具。随着我们继续创新和开发更智能的系统，碰撞避免技术的重要性只会增加，为未来更安全、更高效的操作铺平道路。