anti-collision structure

简明释义

防撞结构

英英释义

例句

1.Engineers are testing the effectiveness of the anti-collision structure in various scenarios.

工程师正在测试防碰撞结构在各种场景下的有效性。

2.The new train design incorporates an anti-collision structure to enhance passenger safety.

新列车设计采用了防碰撞结构以提高乘客安全。

3.The vehicle's anti-collision structure is designed to absorb impact energy during a crash.

该车辆的防碰撞结构旨在在碰撞时吸收冲击能量。

4.In high-speed rail systems, anti-collision structures are crucial for preventing accidents.

在高速铁路系统中，防碰撞结构对于防止事故至关重要。

5.The construction of the bridge includes advanced anti-collision structures to protect against impacts.

桥梁的建设包括先进的防碰撞结构以防止冲击。

作文

In today's rapidly evolving technological landscape, safety and efficiency have become paramount concerns in various industries. One critical aspect of ensuring safety, particularly in transportation and logistics, is the implementation of effective systems that prevent accidents and collisions. This is where the concept of anti-collision structure (防碰撞结构) comes into play. An anti-collision structure is designed to minimize the risk of collisions between vehicles, whether they are on the road, in the air, or at sea. These structures can take many forms, including physical barriers, advanced sensor technologies, and sophisticated software algorithms.The importance of anti-collision structures cannot be overstated. For instance, in the automotive industry, the integration of anti-collision structures has led to significant advancements in vehicle safety. Modern cars are equipped with sensors and cameras that detect obstacles and potential collisions, allowing for automatic braking or evasive maneuvers. This technology not only protects the occupants of the vehicle but also pedestrians and other road users. Furthermore, the implementation of anti-collision structures in urban planning, such as dedicated bike lanes and pedestrian crossings, has contributed to safer city environments.In aviation, anti-collision structures are vital for preventing mid-air collisions. Air traffic control systems utilize advanced radar and communication technologies to maintain safe distances between aircraft. Additionally, modern airplanes are equipped with Traffic Collision Avoidance Systems (TCAS), which alert pilots to potential collisions and suggest corrective actions. These measures have drastically reduced the incidence of airborne accidents, showcasing the effectiveness of anti-collision structures in enhancing safety.Moreover, in maritime operations, anti-collision structures play a crucial role in ensuring the safety of vessels navigating busy waterways. The use of Automatic Identification Systems (AIS) allows ships to communicate their positions and intentions, significantly reducing the likelihood of collisions at sea. Furthermore, physical structures such as buoys and navigational markers help guide vessels safely through hazardous areas.While the benefits of anti-collision structures are clear, there are challenges associated with their implementation. For example, the cost of installing and maintaining advanced safety systems can be substantial. Additionally, there is a need for continuous training and education for operators and drivers to ensure they understand how to utilize these systems effectively. Furthermore, as technology evolves, anti-collision structures must also adapt to new challenges, such as the rise of autonomous vehicles and the complexities of smart city infrastructure.In conclusion, anti-collision structures are an essential component of modern safety systems across various modes of transportation. Their ability to prevent accidents and protect lives makes them invaluable in today’s society. As technology continues to advance, the development and refinement of anti-collision structures will remain a priority for industries focused on safety and efficiency. By investing in these technologies and fostering a culture of safety, we can work towards a future where collisions are significantly reduced, and safety is enhanced for all individuals.

在当今快速发展的技术环境中，安全和效率已成为各行各业的首要关注点。确保安全的一个关键方面，特别是在运输和物流领域，是实施有效的系统以防止事故和碰撞。这就是防碰撞结构（anti-collision structure）概念发挥作用的地方。防碰撞结构旨在最小化车辆之间的碰撞风险，无论它们是在陆地、空中还是海上。这些结构可以采取多种形式，包括物理障碍、先进的传感器技术和复杂的软件算法。防碰撞结构的重要性不容小觑。例如，在汽车行业，防碰撞结构的整合已经导致了车辆安全的重大进步。现代汽车配备了传感器和摄像头，可以检测障碍物和潜在的碰撞，从而实现自动刹车或规避机动。这项技术不仅保护了车辆的乘员，还保护了行人和其他道路使用者。此外，在城市规划中实施防碰撞结构，例如专用自行车道和人行横道，已为更安全的城市环境做出了贡献。在航空领域，防碰撞结构对于防止空中碰撞至关重要。空中交通控制系统利用先进的雷达和通信技术来保持飞机之间的安全距离。此外，现代飞机配备了交通碰撞避免系统（TCAS），该系统提醒飞行员潜在的碰撞并建议纠正措施。这些措施大大降低了空中事故的发生率，展示了防碰撞结构在增强安全性方面的有效性。此外，在海事操作中，防碰撞结构在确保航行繁忙水域的船只安全方面发挥着至关重要的作用。自动识别系统（AIS）的使用使船只能够沟通其位置和意图，从而显著减少海上碰撞的可能性。此外，浮标和导航标志等物理结构有助于安全引导船只通过危险区域。尽管防碰撞结构的好处显而易见，但其实施也面临挑战。例如，安装和维护先进安全系统的成本可能是相当可观的。此外，需要对操作人员和驾驶员进行持续培训和教育，以确保他们理解如何有效利用这些系统。此外，随着技术的发展，防碰撞结构也必须适应新挑战，例如自动驾驶车辆的崛起和智能城市基础设施的复杂性。总之，防碰撞结构是现代安全系统不可或缺的组成部分，涵盖各种交通方式。它们预防事故和保护生命的能力使其在当今社会中不可或缺。随着技术的不断进步，防碰撞结构的发展和完善将始终是关注安全和效率的行业的优先事项。通过投资这些技术并培养安全文化，我们可以朝着一个显著减少碰撞、增强所有人安全的未来努力。