controlled radial steering

简明释义

可控转动式舵机

英英释义

例句

1.With controlled radial steering, drivers can navigate curves more smoothly and safely.

通过控制径向转向，驾驶员可以更平稳、安全地驶过弯道。

2.The drone's flight system is equipped with controlled radial steering for improved stability during turns.

该无人机的飞行系统配备了控制径向转向，以在转弯时提高稳定性。

3.The new vehicle design incorporates controlled radial steering to enhance maneuverability in tight spaces.

新车型设计采用了控制径向转向，以增强在狭小空间中的机动性。

4.The robotic arm utilizes controlled radial steering for precise movements in assembly tasks.

该机器人手臂利用控制径向转向在组装任务中实现精确移动。

5.In racing simulations, controlled radial steering allows players to experience realistic handling.

在赛车模拟中，控制径向转向让玩家体验到真实的操控感。

作文

In the world of automotive engineering, innovations are constantly being developed to enhance vehicle performance and driver experience. One such advancement is the concept of controlled radial steering, which plays a crucial role in improving maneuverability and safety on the road. This technology allows for more precise control over the direction of a vehicle, enabling drivers to navigate complex environments with ease. The term controlled radial steering refers to a steering system that can adjust the angle and response of the wheels based on various parameters, such as speed, road conditions, and driver input. By utilizing sensors and advanced algorithms, this system can dynamically alter the steering characteristics, providing a more intuitive driving experience.The implementation of controlled radial steering has significant implications for both everyday drivers and professional racers. For regular motorists, it enhances safety by making vehicles more responsive to steering inputs, especially during emergency maneuvers. Imagine driving on a winding road; with traditional steering systems, sharp turns can be challenging and may lead to loss of control. However, with controlled radial steering, the vehicle can automatically adjust its steering response, allowing for smoother and safer navigation around curves.For professional racing, where every millisecond counts, controlled radial steering can provide a competitive edge. Racers can achieve greater precision in cornering, allowing them to maintain higher speeds without sacrificing control. The technology enables teams to fine-tune their vehicles' handling characteristics for different tracks, optimizing performance and enhancing the overall racing experience.Moreover, the integration of controlled radial steering into autonomous vehicles represents a significant step toward safer and more efficient transportation. As self-driving technology continues to evolve, ensuring that vehicles can respond accurately to their surroundings is paramount. Controlled radial steering can facilitate smoother lane changes and better obstacle avoidance, ultimately contributing to the goal of fully autonomous driving.Despite its numerous advantages, the adoption of controlled radial steering is not without challenges. Manufacturers must ensure that the technology is reliable and can function correctly under various driving conditions. Additionally, there is the question of cost; advanced steering systems may increase the price of vehicles, which could deter some consumers. However, as the automotive industry moves toward more sophisticated technologies, it is likely that the benefits of controlled radial steering will outweigh these concerns.In conclusion, controlled radial steering represents a remarkable advancement in vehicle technology, offering enhanced control, safety, and performance for drivers. Its applications range from everyday driving to high-speed racing and autonomous vehicles, illustrating its versatility and importance in modern automotive design. As this technology continues to develop, it will undoubtedly shape the future of driving, making it safer and more enjoyable for everyone. Embracing innovations like controlled radial steering is essential for advancing the automotive industry and improving the overall driving experience.

在汽车工程的世界中，创新不断被开发出来，以增强车辆性能和驾驶体验。其中一个重要的进展是“受控径向转向”的概念，它在提高道路上的机动性和安全性方面发挥着至关重要的作用。这项技术允许对车辆方向进行更精确的控制，使驾驶者能够轻松地在复杂环境中导航。“受控径向转向”这一术语指的是一种能够根据多种参数（如速度、路况和驾驶者输入）调整车轮角度和响应的转向系统。通过利用传感器和先进算法，该系统可以动态改变转向特性，提供更直观的驾驶体验。“受控径向转向”的实施对普通驾驶者和职业赛车手都有重要意义。对于普通司机来说，它通过使车辆对转向输入更加敏感来增强安全性，特别是在紧急机动时。想象一下在蜿蜒的道路上行驶；使用传统的转向系统，急转弯可能会很具挑战性，并可能导致失去控制。然而，借助“受控径向转向”，车辆可以自动调整其转向响应，从而实现更平稳和安全的曲线导航。对于职业赛车来说，每毫秒都至关重要，“受控径向转向”可以提供竞争优势。赛车手可以在过弯时实现更大的精确度，使他们能够在不牺牲控制的情况下保持更高的速度。这项技术使车队能够针对不同赛道微调车辆的操控特性，优化性能，增强整体赛车体验。此外，将“受控径向转向”集成到自动驾驶车辆中，代表着朝着更安全、更高效运输的重要一步。随着自驾技术的不断发展，确保车辆能够准确响应周围环境至关重要。“受控径向转向”可以促进更平稳的变道和更好的障碍物规避，最终有助于实现完全自动驾驶的目标。尽管有众多优点，“受控径向转向”的采用并非没有挑战。制造商必须确保该技术可靠，并能在各种驾驶条件下正常工作。此外，还有成本问题；先进的转向系统可能会增加车辆价格，这可能会让一些消费者望而却步。然而，随着汽车行业朝着更复杂的技术发展，受控径向转向的好处很可能会超过这些担忧。总之，“受控径向转向”代表了车辆技术的显著进步，为驾驶者提供了更高的控制、安全性和性能。其应用范围从日常驾驶到高速赛车以及自动驾驶车辆，展示了其在现代汽车设计中的多样性和重要性。随着这项技术的不断发展，它无疑将塑造驾驶的未来，使每个人的驾驶更加安全和愉快。拥抱像“受控径向转向”这样的创新对于推动汽车行业的发展和改善整体驾驶体验至关重要。