anticollision system
简明释义
防撞系统
英英释义
例句
1.The anticollision system in the subway trains helps to maintain safe distances between trains.
地铁列车中的防碰撞系统有助于保持列车之间的安全距离。
2.In modern cars, the anticollision system uses sensors to detect potential collisions and apply brakes automatically.
在现代汽车中,防碰撞系统利用传感器检测潜在碰撞并自动刹车。
3.The construction site has implemented an anticollision system to protect workers from heavy machinery accidents.
施工现场已实施防碰撞系统,以保护工人免受重型机械事故的伤害。
4.Air traffic control relies on advanced anticollision systems to manage the safe passage of aircraft.
空中交通管制依赖先进的防碰撞系统来管理飞机的安全通行。
5.The new drone is equipped with an anticollision system that prevents it from crashing into obstacles.
这款新无人机配备了一个防碰撞系统,可以防止它撞到障碍物。
作文
In today's rapidly advancing technological landscape, the safety of transportation systems has become a paramount concern. One of the most significant innovations designed to enhance safety in various modes of transport is the anticollision system. This system plays a crucial role in preventing accidents that can result from collisions between vehicles, whether on the road, in the air, or at sea.The primary function of an anticollision system is to detect potential collisions and take preventive measures to avert them. In the automotive industry, for example, modern cars are often equipped with sensors and cameras that monitor the vehicle's surroundings. When the system detects an imminent threat, it can alert the driver through visual and auditory signals. In more advanced systems, the car may even autonomously apply the brakes to prevent a crash, showcasing how technology can significantly reduce human error.In aviation, the concept of an anticollision system is equally vital. Aircraft are equipped with Traffic Collision Avoidance Systems (TCAS) that continuously monitor the airspace around them. These systems use transponders to communicate with nearby aircraft, providing pilots with real-time data about potential mid-air collisions. If a risk is detected, the TCAS will issue advisories to pilots, recommending altitude changes to ensure safe separation from other aircraft. This technology has proven to be instrumental in enhancing flight safety and reducing the likelihood of catastrophic accidents.Maritime transport also benefits from anticollision systems. Ships utilize radar and Automatic Identification Systems (AIS) to track the movements of other vessels in their vicinity. When a potential collision is detected, these systems can alert the crew, allowing them to take evasive action. The implementation of such technologies has made maritime navigation safer, particularly in busy shipping lanes where the risk of collision is higher.Despite the advancements in anticollision systems, it is essential to acknowledge that these technologies are not infallible. Human factors still play a significant role in transportation safety. Drivers, pilots, and mariners must remain vigilant and responsive to the information provided by these systems. Education and training are crucial in ensuring that individuals understand how to effectively utilize anticollision systems and respond appropriately in emergency situations.Furthermore, as technology continues to evolve, so too do the challenges associated with anticollision systems. Cybersecurity threats pose a risk to the integrity of these systems, as hackers could potentially manipulate them, leading to disastrous consequences. Therefore, ongoing research and development are necessary to enhance the security and reliability of anticollision systems across all modes of transportation.In conclusion, the introduction of anticollision systems has revolutionized the safety protocols in transportation. By leveraging advanced technology, these systems help prevent accidents and save lives. However, it is imperative to combine technological advancements with proper training and awareness to maximize their effectiveness. As we move forward, continued innovation and vigilance will be key in ensuring that our transportation systems remain safe and secure for all users.
在当今快速发展的技术环境中,交通系统的安全已成为一个至关重要的关注点。为了提高各种交通方式的安全性,最重要的创新之一就是防碰撞系统。该系统在防止车辆之间的碰撞事故方面发挥着至关重要的作用,无论是在公路上、空中还是海上。防碰撞系统的主要功能是检测潜在的碰撞并采取预防措施以避免它们。例如,在汽车工业中,现代汽车通常配备传感器和摄像头,以监控车辆周围的环境。当系统检测到即将发生的威胁时,它可以通过视觉和听觉信号警告驾驶员。在更先进的系统中,汽车甚至可以自动施加刹车以防止碰撞,展示了技术如何显著减少人为错误。在航空领域,防碰撞系统的概念同样至关重要。飞机配备有交通冲突规避系统(TCAS),该系统持续监控周围的空域。这些系统使用应答器与附近的飞机进行通信,为飞行员提供关于潜在空中碰撞的实时数据。如果检测到风险,TCAS将向飞行员发出建议,推荐高度变化以确保安全分离。这项技术在提高飞行安全和减少灾难性事故的可能性方面被证明是非常重要的。海上运输也受益于防碰撞系统。船只利用雷达和自动识别系统(AIS)跟踪其周围其他船只的运动。当检测到潜在碰撞时,这些系统可以警告船员,使他们能够采取规避行动。实施此类技术使海上导航更加安全,特别是在碰撞风险较高的繁忙航道中。尽管防碰撞系统取得了进展,但必须承认这些技术并非万无一失。人类因素在交通安全中仍然发挥着重要作用。驾驶员、飞行员和水手必须保持警惕,并对这些系统提供的信息做出响应。教育和培训对于确保个人理解如何有效利用防碰撞系统并在紧急情况下做出适当反应至关重要。此外,随着技术的不断发展,与防碰撞系统相关的挑战也在增加。网络安全威胁对这些系统的完整性构成风险,黑客可能会操纵它们,导致灾难性后果。因此,持续的研究和开发对于增强各类交通工具的防碰撞系统的安全性和可靠性是必要的。总之,防碰撞系统的引入彻底改变了交通安全协议。通过利用先进技术,这些系统有助于防止事故并挽救生命。然而,将技术进步与适当的培训和意识结合起来,以最大限度地发挥其有效性是至关重要的。随着我们向前迈进,持续的创新和警惕将是确保我们的交通系统对所有用户保持安全和可靠的关键。
