collision avoidance

简明释义

避撞

英英释义

例句

1.The software update improved the collision avoidance capabilities of the robot vacuum.

软件更新提高了机器人吸尘器的碰撞避免能力。

2.Maritime vessels use collision avoidance techniques to maintain safe distances from each other.

海洋船只使用碰撞避免技术保持彼此之间的安全距离。

3.In autonomous vehicles, collision avoidance systems are crucial for ensuring passenger safety.

在自动驾驶汽车中，碰撞避免系统对于确保乘客安全至关重要。

4.The new drone features advanced collision avoidance technology to prevent accidents during flight.

这款新无人机采用先进的碰撞避免技术，以防止飞行中的事故。

5.The pilot relied on the aircraft's collision avoidance system to navigate through busy airspace.

飞行员依靠飞机的碰撞避免系统穿越繁忙的空域。

作文

In today's rapidly advancing technological landscape, the concept of collision avoidance has gained significant importance, especially in fields such as transportation, robotics, and aviation. Collision avoidance refers to the strategies and technologies implemented to prevent accidents or collisions between moving objects. This is particularly crucial in environments where multiple entities operate simultaneously, such as busy roadways or crowded airspace. The integration of collision avoidance systems can enhance safety and efficiency, ultimately saving lives and resources.One of the most prevalent applications of collision avoidance technology is in the automotive industry. Modern vehicles are increasingly equipped with advanced driver-assistance systems (ADAS) that utilize sensors, cameras, and radar to detect potential obstacles. For instance, features like automatic emergency braking and lane-keeping assistance rely on collision avoidance algorithms to analyze the vehicle's surroundings in real-time. These systems can alert drivers to imminent dangers and even take corrective actions to prevent a crash. As a result, collision avoidance technology plays a vital role in reducing the number of traffic accidents and improving overall road safety.Similarly, in the field of aviation, collision avoidance is critical for ensuring the safety of aircraft in flight. The development of Traffic Collision Avoidance Systems (TCAS) has revolutionized how pilots navigate busy airspace. TCAS uses transponder signals from nearby aircraft to determine their relative positions and trajectories. If a potential collision is detected, the system provides pilots with timely alerts and recommended evasive maneuvers. This proactive approach to collision avoidance has significantly decreased the risk of mid-air collisions, making air travel safer for passengers and crew alike.Moreover, the rise of autonomous robots and drones has further highlighted the need for effective collision avoidance mechanisms. As these machines become more prevalent in various sectors, including logistics and agriculture, ensuring they can navigate complex environments without causing harm is essential. Engineers are developing sophisticated algorithms that enable robots to perceive their surroundings and make real-time decisions to avoid obstacles. By incorporating collision avoidance technologies, these autonomous systems can operate more efficiently and safely, minimizing the risk of accidents.While the advancements in collision avoidance technologies are impressive, it is important to acknowledge the challenges that remain. For example, adverse weather conditions, such as fog or heavy rain, can hinder the effectiveness of sensors used in collision avoidance systems. Additionally, the reliance on technology raises concerns about potential malfunctions or failures that could lead to accidents. Therefore, continuous research and development are necessary to improve the reliability and robustness of collision avoidance solutions.In conclusion, collision avoidance is a critical aspect of modern safety protocols across various industries. By implementing advanced technologies and strategies, we can significantly reduce the likelihood of accidents and enhance the safety of individuals and assets. As we continue to innovate and improve upon existing systems, the future of collision avoidance looks promising, paving the way for safer transportation and operation in an increasingly complex world.

在当今快速发展的技术环境中，‘碰撞避免’的概念变得越来越重要，尤其是在交通、机器人和航空等领域。‘碰撞避免’是指为防止移动物体之间发生事故或碰撞而实施的策略和技术。这在多个实体同时操作的环境中尤为关键，比如繁忙的道路或拥挤的空域。整合‘碰撞避免’系统可以提高安全性和效率，从而最终拯救生命和资源。‘碰撞避免’技术最常见的应用之一是汽车工业。现代车辆越来越多地配备先进的驾驶辅助系统（ADAS），利用传感器、摄像头和雷达来检测潜在障碍物。例如，自动紧急制动和车道保持辅助等功能依赖于‘碰撞避免’算法，实时分析车辆周围的环境。这些系统可以提醒驾驶员即将发生的危险，甚至采取纠正措施以防止碰撞。因此，‘碰撞避免’技术在减少交通事故数量和改善整体道路安全方面发挥着至关重要的作用。同样，在航空领域，‘碰撞避免’对于确保飞行中飞机的安全至关重要。交通碰撞避免系统（TCAS）的发展彻底改变了飞行员在繁忙空域中的导航方式。TCAS利用来自附近飞机的应答器信号来确定它们的相对位置和轨迹。如果检测到潜在的碰撞，系统会及时向飞行员发出警报并建议规避机动。采用这种主动的‘碰撞避免’方法显著降低了空中碰撞的风险，使乘客和机组人员的航空旅行更加安全。此外，随着自主机器人和无人机的兴起，进一步突显了有效的‘碰撞避免’机制的必要性。随着这些机器在物流和农业等各个领域变得越来越普遍，确保它们能够在复杂环境中安全导航至关重要。工程师正在开发复杂的算法，使机器人能够感知其周围环境并实时做出决策以避免障碍。通过整合‘碰撞避免’技术，这些自主系统可以更高效、安全地运行，最大限度地减少事故的风险。虽然‘碰撞避免’技术的进步令人印象深刻，但必须承认仍然存在一些挑战。例如，雾霾或大雨等恶劣天气条件可能会影响用于‘碰撞避免’系统的传感器的有效性。此外，对技术的依赖引发了对潜在故障或失效可能导致事故的担忧。因此，持续的研究和开发是必要的，以提高‘碰撞避免’解决方案的可靠性和稳健性。总之，‘碰撞避免’是现代安全协议在各个行业中的关键方面。通过实施先进的技术和策略，我们可以显著降低事故发生的可能性，提高个人和资产的安全性。随着我们不断创新和改进现有系统，‘碰撞避免’的未来看起来充满希望，为在日益复杂的世界中实现更安全的运输和操作铺平了道路。