automatic stabilization and control system

简明释义

自动稳定和控制系统;

英英释义

例句

1.Our new robot features an automatic stabilization and control system that allows it to walk on uneven surfaces.

我们的新机器人配备了一个自动稳定和控制系统，使其能够在不平坦的表面上行走。

2.In modern cars, the automatic stabilization and control system helps maintain traction on slippery roads.

在现代汽车中，自动稳定和控制系统有助于在滑溜的道路上保持抓地力。

3.The drone is equipped with an automatic stabilization and control system to ensure smooth flight even in windy conditions.

这架无人机配备了一个自动稳定和控制系统，以确保即使在风大的情况下也能平稳飞行。

4.The automatic stabilization and control system in this camera helps reduce blurriness in photos.

这款相机中的自动稳定和控制系统有助于减少照片模糊。

5.The spacecraft's automatic stabilization and control system allows it to maintain its orientation during re-entry.

航天器的自动稳定和控制系统使其在再入过程中能够保持方向。

作文

In the modern world, technology plays a pivotal role in various fields, particularly in aviation, automotive engineering, and robotics. One of the most significant advancements in these areas is the development of the automatic stabilization and control system. This system refers to a set of mechanisms designed to maintain the stability of a vehicle or machine without requiring constant manual input from the operator. Its primary function is to ensure that the system operates smoothly and efficiently, even in challenging conditions.The concept of stability is crucial in numerous applications. For instance, in aviation, an automatic stabilization and control system helps keep an aircraft steady during flight, particularly when faced with turbulence or adverse weather conditions. By automatically adjusting the control surfaces, such as ailerons and rudders, the system can counteract disturbances, allowing for a smoother flying experience. This not only enhances passenger comfort but also increases safety by reducing the likelihood of pilot error during critical moments.Similarly, in the automotive industry, the implementation of an automatic stabilization and control system has revolutionized vehicle handling. Modern cars are equipped with advanced systems that monitor various parameters, such as speed, steering angle, and wheel traction. When the system detects a loss of control, it can automatically adjust the brakes or engine power to help the driver regain stability. This technology has significantly reduced accidents caused by skidding or loss of traction, making roads safer for everyone.Robotics also benefits immensely from automatic stabilization and control systems. Robots, especially those designed for complex tasks or environments, require precise control to operate effectively. An automatic stabilization system allows these machines to adapt to changes in their surroundings, maintaining balance and performing tasks accurately. For example, robotic arms used in manufacturing can adjust their position in real-time to accommodate variations in the assembly line, ensuring efficiency and precision.The integration of automatic stabilization and control systems into various technologies not only improves performance but also reduces the cognitive load on operators. In high-pressure situations, such as piloting an aircraft or driving a car, having a system that can autonomously manage stability allows individuals to focus on other critical tasks. This shift towards automation is a testament to how technology can enhance human capabilities while ensuring safety and reliability.Despite the numerous advantages offered by automatic stabilization and control systems, there are challenges that need to be addressed. One significant concern is the reliance on technology, which can sometimes lead to complacency among operators. It is essential for users to remain vigilant and understand that these systems are aids, not replacements for human judgment. Additionally, as technology continues to evolve, ensuring cybersecurity becomes paramount, as automated systems may be vulnerable to hacking or interference.In conclusion, the automatic stabilization and control system represents a remarkable achievement in technology, providing stability and control across various industries. Its applications in aviation, automotive engineering, and robotics have transformed how we operate vehicles and machines, enhancing safety and efficiency. As we continue to advance technologically, it is vital to strike a balance between automation and human oversight to fully harness the potential of these systems while mitigating risks.

在现代世界，技术在各个领域中发挥着关键作用，尤其是在航空、汽车工程和机器人技术方面。其中最重要的进展之一是开发了自动稳定与控制系统。该系统是指一组机制，旨在在不需要操作员持续手动输入的情况下，保持车辆或机器的稳定性。其主要功能是确保系统在困难条件下仍能平稳高效地运行。稳定性的概念在许多应用中至关重要。例如，在航空领域，自动稳定与控制系统帮助飞机在飞行过程中保持稳定，尤其是在遭遇颠簸或恶劣天气条件时。通过自动调整控制面，例如副翼和方向舵，该系统可以抵消干扰，从而实现更平稳的飞行体验。这不仅提高了乘客的舒适度，还通过减少关键时刻的飞行员错误，提高了安全性。同样，在汽车工业中，自动稳定与控制系统的实施彻底改变了车辆的操控性。现代汽车配备了先进的系统，可以监测各种参数，例如速度、转向角和轮胎牵引力。当系统检测到失去控制时，它可以自动调整刹车或发动机功率，以帮助驾驶员恢复稳定。这项技术显著减少了因打滑或失去牵引力而导致的事故，使每个人的道路更加安全。机器人技术也从自动稳定与控制系统中受益匪浅。特别是那些设计用于复杂任务或环境的机器人，需要精确控制才能有效操作。自动稳定系统使这些机器能够适应周围环境的变化，保持平衡并准确执行任务。例如，用于制造的机器人手臂可以实时调整其位置，以适应装配线的变化，确保效率和精确度。将自动稳定与控制系统整合到各种技术中，不仅提高了性能，还减少了操作员的认知负担。在高压情况下，例如驾驶飞机或汽车，拥有一个能够自主管理稳定性的系统使个人能够专注于其他关键任务。这种向自动化的转变证明了技术如何增强人类能力，同时确保安全和可靠性。尽管自动稳定与控制系统提供了众多优点，但仍需解决一些挑战。一个重大问题是对技术的依赖，这有时会导致操作员的自满。用户必须保持警惕，了解这些系统是辅助工具，而不是人类判断的替代品。此外，随着技术的不断发展，确保网络安全变得至关重要，因为自动化系统可能容易受到黑客攻击或干扰。总之，自动稳定与控制系统代表了技术的一项卓越成就，在各个行业中提供了稳定性和控制力。其在航空、汽车工程和机器人技术中的应用改变了我们操作车辆和机器的方式，提高了安全性和效率。随着我们继续在技术上取得进步，找到自动化与人类监督之间的平衡至关重要，以充分利用这些系统的潜力，同时降低风险。