automatic dodging

简明释义

自动控光;

英英释义

例句

1.The drone's automatic dodging 自动闪避 capabilities allow it to fly safely in crowded environments.

该无人机的自动闪避 自动闪避能力使其能够在拥挤的环境中安全飞行。

2.In martial arts training, students learn the importance of automatic dodging 自动闪避 to enhance their reflexes and agility.

在武术训练中，学生们学习自动闪避 自动闪避的重要性，以增强他们的反应能力和灵活性。

3.The new video game features an advanced combat system with automatic dodging 自动闪避 that allows players to evade attacks effortlessly.

这款新视频游戏具有先进的战斗系统，配备了自动闪避 自动闪避，使玩家能够轻松躲避攻击。

4.With the implementation of automatic dodging 自动闪避, the robot can navigate through obstacles without human intervention.

通过实施自动闪避 自动闪避，机器人可以在没有人类干预的情况下穿越障碍物。

5.The self-driving car uses automatic dodging 自动闪避 technology to avoid collisions with pedestrians and other vehicles.

这辆自动驾驶汽车使用自动闪避 自动闪避技术来避免与行人和其他车辆发生碰撞。

作文

In the realm of technology, one of the most intriguing advancements is the concept of automatic dodging. This term refers to the ability of a system or device to autonomously evade obstacles or threats without human intervention. As we delve deeper into the implications and applications of automatic dodging, it becomes evident that this technology holds the potential to revolutionize various industries, from automotive to robotics. To begin with, let's consider the automotive industry. Modern vehicles are increasingly equipped with sophisticated sensors and algorithms that enable them to detect potential hazards on the road. For instance, many cars now come with features such as lane departure warnings, adaptive cruise control, and emergency braking systems. These functionalities are all part of the broader framework of automatic dodging. When a car detects an imminent collision, it can automatically steer away or apply brakes to avoid the impact. This not only enhances driver safety but also reduces the likelihood of accidents, thereby saving lives.Furthermore, the concept of automatic dodging extends beyond cars. In the field of robotics, autonomous drones are being developed with advanced navigation systems that allow them to fly without colliding into obstacles. For example, delivery drones can navigate through urban environments while avoiding buildings, trees, and other aerial traffic. By utilizing automatic dodging technology, these drones can deliver packages efficiently and safely, even in complex settings. This capability is particularly important as e-commerce continues to grow, requiring innovative solutions to meet consumer demands.Moreover, the application of automatic dodging can be seen in the gaming industry as well. Many video games now incorporate AI characters that can maneuver around obstacles in real-time. This adds a layer of realism to gameplay, making the experience more engaging for players. The ability of these characters to perform automatic dodging enhances the challenge and excitement of the game, as players must strategize their moves while accounting for the unpredictable actions of their opponents.Despite its numerous benefits, the implementation of automatic dodging technology does not come without challenges. One major concern is the reliability of the systems. For example, if a vehicle's automatic dodging feature fails to detect a sudden obstacle, it could lead to catastrophic consequences. Therefore, rigorous testing and validation are essential to ensure that these systems function correctly under various conditions. Additionally, ethical considerations arise when machines make decisions that could affect human lives. The question of how much autonomy should be granted to machines remains a topic of debate among engineers, ethicists, and policymakers.In conclusion, automatic dodging is a fascinating technological advancement that has the potential to transform multiple sectors. From enhancing road safety in vehicles to enabling efficient drone deliveries and creating immersive gaming experiences, the applications are vast and varied. However, as we embrace this technology, it is crucial to address the associated challenges to ensure that automatic dodging systems are safe, reliable, and ethically sound. As we move forward, the ongoing development of this technology will undoubtedly shape the future of how we interact with machines and navigate our world.

在技术领域，一个最引人入胜的进展就是“自动躲避”的概念。这个术语指的是系统或设备能够自主地避开障碍物或威胁，而无需人类干预。当我们深入探讨“自动躲避”的含义和应用时，很明显，这项技术有潜力彻底改变各个行业，从汽车到机器人。首先，让我们考虑汽车行业。现代车辆越来越多地配备先进的传感器和算法，使其能够检测路上的潜在危险。例如，许多汽车现在都配备了车道偏离警告、自适应巡航控制和紧急制动系统等功能。这些功能都是“自动躲避”更广泛框架的一部分。当一辆车检测到即将发生碰撞时，它可以自动转向或刹车以避免冲击。这不仅提高了驾驶安全性，还减少了事故的可能性，从而拯救生命。此外，“自动躲避”的概念超越了汽车。在机器人领域，正在开发具有先进导航系统的自主无人机，使它们能够在不与障碍物相撞的情况下飞行。例如，送货无人机可以在城市环境中导航，同时避开建筑物、树木和其他空中交通。通过利用“自动躲避”技术，这些无人机能够高效、安全地递送包裹，即使在复杂的环境中。随着电子商务的持续增长，这种能力尤为重要，需要创新解决方案来满足消费者的需求。此外，“自动躲避”的应用也可以在游戏行业中看到。许多视频游戏现在都结合了能够实时绕过障碍的人工智能角色。这为游戏玩法增加了一层现实感，使玩家的体验更加吸引人。这些角色执行“自动躲避”的能力增强了游戏的挑战性和刺激感，因为玩家必须在考虑对手不可预测的动作时制定策略。尽管有诸多好处，但实施“自动躲避”技术并非没有挑战。一个主要问题是系统的可靠性。例如，如果一辆车的“自动躲避”功能未能检测到突发障碍物，可能会导致灾难性后果。因此，严格的测试和验证对于确保这些系统在各种条件下正常工作至关重要。此外，当机器做出可能影响人类生命的决策时，会出现伦理考虑。应该赋予机器多少自主权的问题仍然是工程师、伦理学家和政策制定者之间辩论的主题。总之，“自动躲避”是一项迷人的技术进步，有潜力改变多个领域。从提高车辆道路安全性到实现高效的无人机递送，再到创造沉浸式的游戏体验，应用广泛且多样。然而，在我们接受这项技术的同时，必须解决相关挑战，以确保“自动躲避”系统安全、可靠且符合伦理。随着我们向前迈进，这项技术的持续发展无疑将塑造我们与机器互动和导航世界的未来。