predicted collision point

简明释义

预测相碰点

英英释义

例句

1.Engineers used advanced algorithms to improve the accuracy of the predicted collision point 预测碰撞点 in their models.

工程师们使用先进的算法来提高模型中预测碰撞点的准确性。

2.The software displayed a warning when the predicted collision point 预测碰撞点 was within a certain distance.

当预测碰撞点在一定距离内时，软件会显示警告。

3.During the simulation, we identified the predicted collision point 预测碰撞点 of the two moving vehicles.

在模拟中，我们识别出了两辆移动车辆的预测碰撞点。

4.The maritime patrol identified the predicted collision point 预测碰撞点 for the two ships in real-time.

海上巡逻队实时识别了两艘船的预测碰撞点。

5.The aircraft's navigation system calculated the predicted collision point 预测碰撞点 based on its current trajectory.

飞机的导航系统根据当前轨迹计算了预测碰撞点。

作文

In the realm of physics and engineering, understanding the dynamics of moving objects is crucial. One important concept that emerges in this context is the predicted collision point, which refers to the calculated location where two or more moving objects are expected to collide based on their trajectories and velocities. This concept has significant applications in various fields, including transportation safety, robotics, and even space exploration.When vehicles travel on roads, predicting a predicted collision point can help avoid accidents. For instance, advanced driver-assistance systems (ADAS) utilize sensors and algorithms to detect the speed and direction of surrounding vehicles. By analyzing this data, the system can calculate the predicted collision point and alert the driver to take evasive action if necessary. This technology not only enhances safety but also contributes to the development of autonomous vehicles, which rely heavily on accurate predictions to navigate complex environments.In the field of robotics, the predicted collision point is equally vital. Robots often operate in dynamic settings where they must interact with humans and other machines. To ensure safe operations, robots are programmed to calculate potential collision points with their surroundings. For example, a robotic arm in a manufacturing facility may need to predict the predicted collision point of its movement concerning nearby equipment or human workers. By doing so, it can adjust its trajectory and avoid any harmful interactions.Space exploration also benefits from the concept of predicted collision point. Satellites and spacecraft travel at incredibly high speeds, making it essential to predict potential collisions with other objects in orbit. Space agencies use sophisticated tracking systems to monitor the positions and velocities of various celestial bodies. When a potential collision is detected, they can calculate the predicted collision point and take corrective measures, such as adjusting the spacecraft's trajectory to ensure safe passage.Moreover, the predicted collision point is not limited to physical objects. In cybersecurity, for instance, predicting potential points of conflict between different software systems can prevent data breaches and other security issues. By analyzing patterns and behaviors, security systems can identify vulnerabilities and mitigate risks before they lead to significant problems.In conclusion, the concept of predicted collision point plays a crucial role across various fields, from transportation to robotics and space exploration. Understanding how to calculate and interpret these points can lead to safer interactions between moving objects, whether they are vehicles on a road, robots in a factory, or spacecraft in orbit. As technology continues to advance, the ability to accurately predict collision points will become increasingly important, ensuring that our interactions with the world around us remain safe and efficient.

在物理和工程领域，理解运动物体的动态至关重要。一个重要的概念是预测碰撞点，它指的是根据物体的轨迹和速度计算出的两个或多个运动物体预计会发生碰撞的位置。这个概念在交通安全、机器人技术甚至太空探索等多个领域都有重要应用。当车辆在道路上行驶时，预测预测碰撞点可以帮助避免事故。例如，先进的驾驶辅助系统（ADAS）利用传感器和算法检测周围车辆的速度和方向。通过分析这些数据，系统可以计算出预测碰撞点并提醒驾驶员采取必要的规避措施。这项技术不仅提高了安全性，还促进了自动驾驶车辆的发展，而这些车辆在导航复杂环境中严重依赖准确的预测。在机器人领域，预测碰撞点同样至关重要。机器人通常在动态环境中工作，必须与人类和其他机器进行交互。为了确保安全操作，机器人被编程计算与周围环境的潜在碰撞点。例如，制造设施中的机器人手臂可能需要预测其运动与附近设备或人类工人的预测碰撞点。通过这样做，它可以调整其轨迹，避免任何有害的互动。太空探索也受益于预测碰撞点的概念。卫星和宇宙飞船以极高的速度旅行，因此预测潜在的碰撞与轨道上的其他物体至关重要。航天机构使用复杂的跟踪系统来监测各种天体的位置和速度。当检测到潜在碰撞时，他们可以计算出预测碰撞点并采取纠正措施，例如调整宇宙飞船的轨迹，以确保安全通行。此外，预测碰撞点并不仅限于物理对象。在网络安全领域，例如，预测不同软件系统之间潜在的冲突点可以防止数据泄露和其他安全问题。通过分析模式和行为，安全系统可以识别漏洞并在导致重大问题之前减轻风险。总之，预测碰撞点的概念在交通、机器人和太空探索等各个领域发挥着至关重要的作用。理解如何计算和解释这些点可以使运动物体之间的互动更加安全，无论它们是在道路上的车辆、工厂中的机器人还是轨道上的宇宙飞船。随着技术的不断进步，准确预测碰撞点的能力将变得越来越重要，确保我们与周围世界的互动保持安全和高效。