collision avoidance
简明释义
避碰
英英释义
Collision avoidance refers to techniques or systems designed to prevent accidents between moving objects, such as vehicles or aircraft. | 碰撞避免是指旨在防止移动物体(如车辆或飞机)之间发生事故的技术或系统。 |
例句
1.The new software includes advanced collision avoidance features to prevent accidents during automated driving.
新软件包括先进的碰撞避免功能,以防止自动驾驶中的事故。
2.The drone is equipped with collision avoidance technology that allows it to navigate around obstacles autonomously.
这架无人机配备了碰撞避免技术,使其能够自主绕过障碍物。
3.The marine vessel's collision avoidance system helped it steer clear of a potential crash with another ship.
该海洋船只的碰撞避免系统帮助它避免与另一艘船发生潜在碰撞。
4.In aviation, collision avoidance systems are critical for ensuring the safety of aircraft in crowded airspace.
在航空领域,碰撞避免系统对确保繁忙空域中飞机的安全至关重要。
5.Developers are focusing on enhancing collision avoidance algorithms to improve the performance of self-driving cars.
开发人员正专注于增强碰撞避免算法,以提高自动驾驶汽车的性能。
作文
In today's fast-paced world, the concept of collision avoidance (碰撞避免) has become increasingly important in various fields, particularly in transportation and robotics. As technology advances, the need for systems that can prevent accidents and ensure safety is paramount. This essay will explore the significance of collision avoidance and how it is applied in different domains.Firstly, in the realm of autonomous vehicles, collision avoidance is a critical feature. Self-driving cars are equipped with sophisticated sensors and algorithms that allow them to detect obstacles, pedestrians, and other vehicles on the road. These systems analyze data in real-time to make split-second decisions, ensuring that the vehicle can navigate safely without human intervention. The implementation of collision avoidance technology not only enhances the safety of passengers but also contributes to reducing traffic accidents, which are often caused by human error.Moreover, collision avoidance plays a vital role in aviation. Modern aircraft are equipped with advanced radar systems that help pilots avoid mid-air collisions. The Traffic Collision Avoidance System (TCAS) alerts pilots when another aircraft is on a potential collision course, providing them with instructions to change altitude or direction. This technology has significantly improved air travel safety, allowing millions of passengers to fly without fear of accidents.In addition to transportation, collision avoidance is also applicable in robotics. Industrial robots, for example, are commonly used in manufacturing environments where they work alongside human workers. To prevent accidents, these robots are designed with collision avoidance mechanisms that enable them to detect nearby individuals and halt their operations if someone enters their workspace. This ensures a safe working environment and promotes efficiency in production processes.Furthermore, the concept of collision avoidance extends beyond physical objects. In the realm of cybersecurity, collision avoidance refers to strategies that prevent data breaches and cyberattacks. Organizations implement various security measures, such as firewalls and intrusion detection systems, to avoid potential threats. By proactively addressing vulnerabilities, companies can protect sensitive information and maintain the trust of their clients.As we look towards the future, the importance of collision avoidance will only continue to grow. With the rise of smart cities and the Internet of Things (IoT), interconnected devices will require robust collision avoidance systems to manage the complexities of urban environments. For instance, drones delivering packages will need to navigate through crowded airspaces while avoiding collisions with buildings and other aerial vehicles. Similarly, smart traffic management systems will rely on collision avoidance algorithms to optimize traffic flow and minimize accidents.In conclusion, collision avoidance (碰撞避免) is an essential aspect of modern technology that enhances safety across various sectors. From autonomous vehicles to aviation and robotics, the ability to prevent collisions is crucial for protecting lives and property. As technology continues to evolve, the development and implementation of effective collision avoidance systems will remain a top priority, ensuring a safer and more efficient future for all.
在当今快节奏的世界中,碰撞避免(collision avoidance)这一概念在各个领域变得越来越重要,尤其是在交通和机器人技术方面。随着科技的进步,能够防止事故并确保安全的系统的需求变得至关重要。本文将探讨碰撞避免的重要性以及它在不同领域的应用。首先,在自动驾驶汽车领域,碰撞避免是一个关键特性。无人驾驶汽车配备了复杂的传感器和算法,使其能够检测道路上的障碍物、行人和其他车辆。这些系统实时分析数据,以做出瞬间决策,确保车辆能够安全导航而无需人工干预。实施碰撞避免技术不仅提高了乘客的安全性,还帮助减少了通常由人为错误引起的交通事故。此外,碰撞避免在航空领域也发挥着重要作用。现代飞机配备了先进的雷达系统,帮助飞行员避免空中碰撞。交通碰撞避免系统(TCAS)会在另一架飞机与之处于潜在碰撞轨道时提醒飞行员,并提供改变高度或方向的指令。这项技术显著提高了航空旅行的安全性,使数百万乘客能够安全飞行,而不必担心事故发生。除了交通运输,碰撞避免还适用于机器人技术。例如,工业机器人通常在制造环境中使用,与人类工人一起工作。为了防止事故,这些机器人设计了碰撞避免机制,使其能够检测到附近的人,并在有人进入其工作空间时停止操作。这确保了安全的工作环境,并促进了生产过程的效率。此外,碰撞避免的概念超越了物理对象。在网络安全领域,碰撞避免指的是防止数据泄露和网络攻击的策略。组织实施各种安全措施,例如防火墙和入侵检测系统,以避免潜在威胁。通过主动解决漏洞,公司可以保护敏感信息,并维护客户的信任。展望未来,碰撞避免的重要性只会继续增长。随着智能城市和物联网(IoT)的崛起,互联设备将需要强大的碰撞避免系统来管理城市环境的复杂性。例如,送货无人机需要在拥挤的空域中导航,同时避免与建筑物和其他空中交通工具发生碰撞。同样,智能交通管理系统将依赖于碰撞避免算法来优化交通流量并最小化事故发生。总之,碰撞避免(collision avoidance)是现代技术的一个重要方面,它提高了各个行业的安全性。从自动驾驶汽车到航空和机器人,防止碰撞的能力对于保护生命和财产至关重要。随着技术的不断发展,有效的碰撞避免系统的开发和实施将始终是重中之重,确保我们所有人的未来更加安全和高效。
相关单词
