adaptive braking system control

简明释义

自适应制动系统控制装置

英英释义

例句

1.The new car model features an advanced adaptive braking system control that automatically adjusts the brakes based on traffic conditions.

新车型配备了先进的自适应制动系统控制，能够根据交通状况自动调整刹车。

2.The adaptive braking system control helps maintain a safe distance from the car ahead by adjusting the brake force.

自适应制动系统控制通过调整刹车力度来帮助保持与前车的安全距离。

3.In heavy traffic, the adaptive braking system control reduces driver fatigue by managing braking automatically.

在拥堵的交通中，自适应制动系统控制通过自动管理刹车来减少驾驶疲劳。

4.Drivers can feel safer knowing that their vehicle is equipped with adaptive braking system control technology.

驾驶者可以更安心，因为他们的车辆配备了自适应制动系统控制技术。

5.During emergency situations, the adaptive braking system control activates to prevent collisions.

在紧急情况下，自适应制动系统控制会激活以防止碰撞。

作文

In recent years, the automotive industry has seen significant advancements in technology, particularly concerning safety features. One of the most critical innovations is the implementation of an adaptive braking system control, which enhances vehicle safety and driving experience. This system utilizes various sensors and algorithms to monitor the vehicle's speed, distance from other objects, and driver inputs to provide optimal braking performance under different conditions.The primary function of an adaptive braking system control is to automatically adjust the braking force applied to each wheel based on real-time data. For instance, if the system detects that the vehicle is approaching another car too quickly, it can increase the braking force to prevent a collision. This proactive approach not only helps in avoiding accidents but also provides a smoother driving experience by minimizing sudden stops.Moreover, the adaptive braking system control works in conjunction with other advanced driver-assistance systems (ADAS). For example, when combined with adaptive cruise control, this system can maintain a safe following distance from the vehicle ahead. If traffic slows down, the adaptive braking system control will automatically apply the brakes to reduce speed, allowing the driver to focus on the road without constantly adjusting the throttle and brake pedals.Another significant advantage of the adaptive braking system control is its ability to enhance performance in challenging weather conditions. During rain or snow, the system can adjust the braking force to prevent skidding and maintain traction. This feature is crucial for ensuring driver confidence and vehicle stability, especially in adverse conditions.Furthermore, the adaptive braking system control can contribute to energy efficiency in electric and hybrid vehicles. By optimizing the braking process, these systems can recover energy during deceleration and feed it back into the battery, extending the vehicle's range. This regenerative braking feature highlights the importance of such systems in the future of sustainable transportation.Despite the numerous benefits of adaptive braking system control, it is essential for drivers to remain engaged and attentive while driving. While these systems significantly enhance safety, they are not a substitute for careful driving practices. Drivers should understand the limitations of the technology and be prepared to take manual control if necessary.In conclusion, the adaptive braking system control represents a remarkable advancement in automotive safety technology. By automatically adjusting braking forces based on real-time data, this system not only improves safety but also enhances overall driving comfort and performance. As the automotive industry continues to evolve, the integration of such intelligent systems will play a vital role in shaping the future of driving. It is crucial for drivers to embrace these technologies while remaining vigilant on the road, ensuring that the benefits of innovation are fully realized without compromising safety.

近年来，汽车工业在技术方面取得了显著进步，特别是在安全功能方面。其中最关键的创新之一是实施自适应制动系统控制，它增强了车辆的安全性和驾驶体验。该系统利用各种传感器和算法来监控车辆的速度、与其他物体的距离以及驾驶员输入，以便在不同条件下提供最佳的制动性能。自适应制动系统控制的主要功能是根据实时数据自动调整施加在每个车轮上的制动力。例如，如果系统检测到车辆正以过快的速度接近另一辆车，它可以增加制动力以防止碰撞。这种主动的方法不仅有助于避免事故，还通过减少突然停车来提供更平稳的驾驶体验。此外，自适应制动系统控制与其他先进的驾驶辅助系统（ADAS）协同工作。例如，当与自适应巡航控制结合使用时，该系统可以保持与前方车辆的安全跟车距离。如果交通减速，自适应制动系统控制将自动施加制动以降低速度，使驾驶员能够专注于道路，而无需不断调整油门和刹车踏板。自适应制动系统控制的另一个重要优势是其在恶劣天气条件下提高性能的能力。在雨天或雪天，该系统可以调整制动力以防止打滑并保持牵引力。这一特性对于确保驾驶员信心和车辆稳定性至关重要，尤其是在不利条件下。此外，自适应制动系统控制可以提高电动和混合动力车辆的能源效率。通过优化制动过程，这些系统可以在减速过程中回收能量并反馈到电池中，从而延长车辆的续航里程。这种再生制动特性突显了此类系统在未来可持续交通中的重要性。尽管自适应制动系统控制具有众多优点，但驾驶员在驾驶时仍需保持参与和注意。虽然这些系统显著增强了安全性，但它们并不能替代小心的驾驶习惯。驾驶员应了解技术的局限性，并在必要时做好手动控制的准备。总之，自适应制动系统控制代表了汽车安全技术的显著进步。通过根据实时数据自动调整制动力，该系统不仅提高了安全性，还增强了整体驾驶舒适性和性能。随着汽车工业的不断发展，此类智能系统的集成将在塑造未来驾驶中发挥至关重要的作用。驾驶员必须在拥抱这些技术的同时，保持对道路的警惕，确保创新的好处得以充分实现，而不妨碍安全。