collision avoidance system
简明释义
避碰系统
英英释义
A collision avoidance system is a technology designed to prevent accidents by detecting potential collisions and taking action to avoid them. | 碰撞避免系统是一种旨在通过检测潜在碰撞并采取措施避免事故的技术。 |
例句
1.The collision avoidance system alerts the driver when another vehicle is too close.
当另一辆车过于接近时,碰撞避免系统会提醒司机。
2.Marine vessels utilize a collision avoidance system to detect and avoid obstacles in the water.
海洋船舶利用碰撞避免系统来检测和避开水中的障碍物。
3.The new car model features a state-of-the-art collision avoidance system that helps prevent accidents.
这款新车型配备了最先进的碰撞避免系统,有助于防止事故。
4.Airplanes are equipped with a collision avoidance system to ensure safe distances between aircraft.
飞机配备了碰撞避免系统,以确保飞机之间的安全距离。
5.The collision avoidance system in this drone allows it to navigate safely through crowded areas.
这款无人机的碰撞避免系统使其能够安全地穿过拥挤的区域。
作文
In the modern world, technology plays a vital role in enhancing safety and efficiency across various sectors. One of the most significant advancements in transportation is the development of the collision avoidance system, which has revolutionized how vehicles operate on roads and in the skies. This system is designed to prevent accidents by detecting potential collisions and taking corrective actions to avoid them. As we delve deeper into this topic, it becomes evident that understanding the collision avoidance system is crucial for both manufacturers and consumers alike.The collision avoidance system employs a variety of sensors, cameras, and radar technologies to monitor the environment around a vehicle. These systems continually assess the speed and distance of nearby objects, including other vehicles, pedestrians, and obstacles. When a potential collision is detected, the system can issue warnings to the driver or even take automatic control of the vehicle to prevent an accident. This technology significantly reduces the likelihood of human error, which is a leading cause of road accidents.For instance, many modern cars come equipped with features like automatic emergency braking, lane departure warnings, and adaptive cruise control, all of which are components of a comprehensive collision avoidance system. These features work in tandem to create a safer driving experience. Studies have shown that vehicles equipped with such systems have fewer accidents compared to those without them, underscoring the importance of incorporating these technologies into everyday transportation.Moreover, the benefits of collision avoidance systems extend beyond personal vehicles. In aviation, similar technologies are employed to enhance flight safety. The Traffic Collision Avoidance System (TCAS) is a prime example, helping pilots avoid mid-air collisions by providing alerts and recommended evasive maneuvers. This application of collision avoidance systems showcases their versatility and critical role in ensuring safety across different modes of transport.However, the implementation of collision avoidance systems is not without challenges. One of the primary concerns is the reliability of the technology. False positives, where the system mistakenly identifies a threat, can lead to unnecessary panic and erratic driving behavior. Additionally, the effectiveness of these systems can be compromised in adverse weather conditions, such as heavy rain or fog, where visibility is reduced. Therefore, continuous improvement and rigorous testing are essential to enhance the performance of collision avoidance systems.Furthermore, there are ethical considerations surrounding the use of collision avoidance systems. For example, in situations where an accident is unavoidable, how should the system react? Should it prioritize the safety of the passengers inside the vehicle or that of pedestrians outside? These dilemmas highlight the need for ongoing discussions about the moral implications of automated decision-making in vehicles.In conclusion, the collision avoidance system represents a significant leap forward in transportation safety. By leveraging advanced technology, these systems help mitigate the risks associated with human error and enhance overall road safety. As technology continues to evolve, it is imperative for stakeholders in the automotive and aviation industries to prioritize the development and refinement of collision avoidance systems. Ultimately, the goal is to create a safer future for everyone on the road and in the sky.
在现代世界中,技术在提高各个行业的安全性和效率方面发挥着至关重要的作用。交通运输领域最重要的进步之一是开发了碰撞避免系统,这彻底改变了车辆在道路和空中运行的方式。该系统旨在通过检测潜在碰撞并采取纠正措施来避免事故,从而防止事故发生。深入探讨这个主题,我们会发现理解碰撞避免系统对制造商和消费者来说都是至关重要的。碰撞避免系统利用各种传感器、摄像头和雷达技术监测车辆周围的环境。这些系统不断评估附近物体的速度和距离,包括其他车辆、行人和障碍物。当检测到潜在碰撞时,系统可以向驾驶员发出警告,甚至自动控制车辆以防止事故发生。这项技术显著减少了人为错误的可能性,而人为错误是导致道路事故的主要原因。例如,许多现代汽车都配备了自动紧急制动、车道偏离警告和自适应巡航控制等功能,这些都是全面的碰撞避免系统的组成部分。这些功能协同工作,为驾驶者创造了更安全的驾驶体验。研究表明,配备此类系统的车辆与未配备系统的车辆相比,事故发生率较低,这凸显了将这些技术纳入日常交通的重要性。此外,碰撞避免系统的好处不仅限于个人车辆。在航空领域,类似的技术也被用来增强飞行安全。交通碰撞避免系统(TCAS)就是一个典型的例子,它帮助飞行员避免空中碰撞,通过提供警报和建议的规避动作。这种碰撞避免系统的应用展示了其多功能性和在确保不同交通模式安全中的关键作用。然而,实施碰撞避免系统并非没有挑战。其中一个主要问题是技术的可靠性。误报,即系统错误地识别威胁,可能导致不必要的恐慌和不稳定的驾驶行为。此外,在恶劣天气条件下,例如大雨或雾霾,能见度降低,可能会影响这些系统的有效性。因此,持续改进和严格测试对于提升碰撞避免系统的性能至关重要。此外,围绕使用碰撞避免系统还有伦理考虑。例如,在事故不可避免的情况下,系统应该如何反应?它应该优先考虑车内乘客的安全还是外部行人的安全?这些困境突显了关于车辆自动决策的道德影响的持续讨论的必要性。总之,碰撞避免系统代表了交通安全的一次重大飞跃。通过利用先进的技术,这些系统帮助减轻与人为错误相关的风险,并增强整体道路安全性。随着技术的不断发展,汽车和航空工业的利益相关者必须优先考虑碰撞避免系统的开发和完善。最终目标是为每一个在道路和天空中的人创造一个更安全的未来。
相关单词