stabilization system

简明释义

定值系统

英英释义

例句

1.The robotics team designed a stabilization system 稳定系统 to help their robot navigate uneven terrain.

机器人团队设计了一个stabilization system 稳定系统，以帮助他们的机器人在不平坦的地形中导航。

2.The car's stabilization system 稳定系统 prevents skidding on slippery roads.

汽车的stabilization system 稳定系统可防止在滑溜的道路上打滑。

3.The drone is equipped with a stabilization system 稳定系统 that helps maintain its altitude during flight.

这架无人机配备了一个stabilization system 稳定系统，有助于在飞行中保持高度。

4.A good stabilization system 稳定系统 in a camera can significantly reduce motion blur in photos.

相机中的良好stabilization system 稳定系统可以显著减少照片中的运动模糊。

5.In the event of turbulence, the airplane's stabilization system 稳定系统 keeps it steady in the air.

在颠簸发生时，飞机的stabilization system 稳定系统使其在空中保持稳定。

作文

In modern engineering and technology, a crucial component that enhances safety and performance is the stabilization system. This term refers to various mechanisms or technologies designed to maintain stability in different contexts, such as vehicles, aircraft, and even structures. A well-designed stabilization system can significantly improve the reliability and functionality of a system by reducing unwanted movements or fluctuations.For instance, in the aviation industry, aircraft are equipped with advanced stabilization systems that help maintain level flight and control during turbulent conditions. These systems utilize sensors and control algorithms to make real-time adjustments to the aircraft's control surfaces, ensuring a smooth and stable flight experience for passengers. Without such a stabilization system, pilots would face greater challenges in managing the aircraft's response to external forces, potentially compromising safety.Similarly, in the automotive sector, vehicles often incorporate stabilization systems to enhance handling and ride comfort. Electronic Stability Control (ESC) is a common example, which helps prevent skidding and loss of control during sudden maneuvers. By automatically applying brakes to individual wheels, the stabilization system assists drivers in maintaining control, especially in adverse weather conditions. This technology has proven to be an invaluable asset in reducing accidents and improving overall road safety.In addition to transportation, stabilization systems play a vital role in construction and civil engineering. Buildings and bridges are designed with various stabilization systems to withstand environmental forces such as wind, earthquakes, and other dynamic loads. For example, base isolation systems allow a structure to move independently from ground motion during seismic events, thereby protecting the integrity of the building. These innovative approaches demonstrate the importance of stabilization systems in ensuring the durability and safety of infrastructure.Moreover, the concept of stabilization systems extends beyond physical structures to encompass software and digital applications. In the realm of information technology, algorithms that stabilize data flow and processing are critical for maintaining system performance. For instance, in video streaming, a stabilization system can reduce jitter and buffering, providing a seamless viewing experience for users. This highlights how stabilization systems are integral not only in physical domains but also in virtual environments.In conclusion, the significance of stabilization systems cannot be overstated. Whether in aviation, automotive, construction, or digital applications, these systems are essential for enhancing safety, performance, and user experience. As technology continues to evolve, the development of more sophisticated stabilization systems will undoubtedly lead to advancements that further improve our daily lives and the environments we inhabit. Understanding and implementing effective stabilization systems is key to achieving stability and reliability across various fields, ultimately contributing to a safer and more efficient world.

在现代工程和技术中，一个关键的组成部分是增强安全性和性能的稳定系统。这个术语指的是各种机制或技术，旨在保持不同环境中的稳定性，例如车辆、飞机甚至建筑物。一个设计良好的稳定系统可以通过减少不必要的运动或波动来显著提高系统的可靠性和功能性。例如，在航空工业中，飞机配备了先进的稳定系统，帮助保持平飞并在动荡条件下控制。这些系统利用传感器和控制算法实时调整飞机的控制面，使乘客获得平稳稳定的飞行体验。如果没有这样的稳定系统，飞行员在管理飞机对外部力量的反应时将面临更大的挑战，从而可能危及安全。同样，在汽车行业，车辆通常采用稳定系统来增强操控性和乘坐舒适性。电子稳定控制（ESC）就是一个常见的例子，它有助于防止在突然操纵时发生打滑和失控。通过自动对单个车轮施加刹车，稳定系统帮助驾驶员保持控制，尤其是在恶劣天气条件下。这项技术已被证明是减少事故和提高整体道路安全的宝贵资产。除了交通运输，稳定系统在建筑和土木工程中也发挥着重要作用。建筑物和桥梁的设计中采用了各种稳定系统，以抵御风、地震和其他动态载荷等环境力。例如，基础隔离系统允许结构在地震事件中独立于地面运动，从而保护建筑的完整性。这些创新方法展示了稳定系统在确保基础设施耐久性和安全性方面的重要性。此外，稳定系统的概念不仅限于物理结构，还包括软件和数字应用。在信息技术领域，稳定数据流和处理的算法对于维护系统性能至关重要。例如，在视频流媒体中，稳定系统可以减少抖动和缓冲，为用户提供无缝的观看体验。这突显了稳定系统在物理领域和虚拟环境中都是不可或缺的。总之，稳定系统的重要性不容忽视。无论是在航空、汽车、建筑还是数字应用中，这些系统对于增强安全性、性能和用户体验至关重要。随着技术的不断发展，更复杂的稳定系统的发展无疑将导致进一步改善我们日常生活和我们所处环境的进步。理解和实施有效的稳定系统是实现各领域稳定性和可靠性的关键，最终将为一个更安全、更高效的世界做出贡献。