altitude hold

简明释义

高度固定

英英释义

例句

1.Using the altitude hold feature, the drone hovered at a fixed height above the ground.

通过使用高度保持功能，无人机在地面上方的固定高度悬停。

2.During the training session, the instructor explained how to use the altitude hold to improve flight stability.

在培训课程中，教练解释了如何使用高度保持来提高飞行稳定性。

3.The helicopter's altitude hold function allows it to maintain a consistent height while surveying the area.

直升机的高度保持功能使其在勘测区域时能够保持一致的高度。

4.The autopilot system automatically activates the altitude hold when the aircraft reaches the desired altitude.

当飞机达到所需高度时，自动驾驶系统会自动激活高度保持。

5.The pilot engaged the altitude hold to maintain a steady flight level during the cruise phase.

飞行员启用了高度保持以在巡航阶段保持稳定的飞行高度。

作文

In the world of aviation, technology has advanced significantly, enabling pilots to operate aircraft with greater precision and safety. One of the remarkable features that assist pilots is the altitude hold system. This system allows an aircraft to maintain a constant altitude without the pilot needing to manually control the altitude. Essentially, once the desired altitude is reached, the altitude hold function takes over, ensuring that the plane stays at that level. This feature is particularly beneficial during long flights, where maintaining altitude can become tiresome for pilots. The altitude hold mechanism works by using sensors that detect changes in altitude and automatically adjust the aircraft's pitch to counteract any fluctuations. For example, if the plane starts to climb or descend unexpectedly, the system will make the necessary adjustments to keep the aircraft stable. The importance of the altitude hold feature cannot be overstated. In challenging flying conditions, such as turbulence or adverse weather, pilots can focus on navigating rather than constantly adjusting their altitude. This not only enhances safety but also improves the overall flight experience for passengers. Furthermore, the altitude hold function is particularly useful during the cruise phase of flight, where the aircraft typically flies at a steady altitude for extended periods. By allowing the plane to maintain its altitude effortlessly, pilots can conserve fuel and reduce fatigue.In addition to commercial aviation, the altitude hold system is also prevalent in recreational flying and drone operations. For instance, many modern drones are equipped with this technology, allowing hobbyists and professionals to capture stunning aerial footage without worrying about altitude management. The altitude hold feature enhances the usability of these devices, making them more accessible to a wider audience.Moreover, the evolution of the altitude hold system has paved the way for even more advanced technologies in aviation. With the integration of autopilot systems, pilots can rely on automated functions to handle various aspects of flight, including altitude management. This integration not only enhances safety but also allows pilots to focus on other critical tasks, such as communication with air traffic control and monitoring the aircraft's systems.As we look towards the future of aviation, the altitude hold system will undoubtedly continue to evolve. Innovations in sensor technology and artificial intelligence may lead to even more sophisticated altitude management systems, further improving flight safety and efficiency. Pilots will benefit from enhanced automation, allowing them to concentrate on strategic decision-making rather than routine altitude adjustments.In conclusion, the altitude hold system plays a vital role in modern aviation, providing pilots with the ability to maintain consistent altitude with minimal effort. Its significance extends beyond just commercial flights, impacting recreational flying and drone operations as well. As technology continues to advance, we can expect the altitude hold feature to become even more refined, contributing to safer and more efficient air travel for everyone involved.

在航空领域，技术已经显著进步，使飞行员能够更精确和安全地操作飞机。一个帮助飞行员的显著特征是高度保持系统。该系统允许飞机在飞行员无需手动控制高度的情况下维持恒定高度。简单来说，一旦达到所需高度，高度保持功能便会接管，确保飞机保持在该高度。这一功能在长途飞行中尤其有益，因为维持高度可能会让飞行员感到疲惫。高度保持机制通过使用传感器来检测高度变化，并自动调整飞机的俯仰角以抵消任何波动。例如，如果飞机意外开始爬升或下降，该系统将进行必要的调整以保持飞机的稳定。高度保持功能的重要性不容小觑。在恶劣飞行条件下，例如颠簸或不利天气，飞行员可以专注于导航，而不是不断调整高度。这不仅增强了安全性，还改善了乘客的整体飞行体验。此外，高度保持功能在飞行的巡航阶段特别有用，在这一阶段，飞机通常在稳定的高度上飞行很长时间。通过让飞机轻松维持其高度，飞行员可以节省燃料并减少疲劳。除了商业航空，高度保持系统在休闲飞行和无人机操作中也很普遍。例如，许多现代无人机都配备了这项技术，使爱好者和专业人士能够拍摄令人惊叹的空中画面，而无需担心高度管理。高度保持功能增强了这些设备的可用性，使其对更广泛的受众更加可及。此外，高度保持系统的发展为航空领域更先进技术的出现铺平了道路。随着自动驾驶仪系统的集成，飞行员可以依赖自动化功能来处理飞行的各个方面，包括高度管理。这种集成不仅提高了安全性，还使飞行员能够专注于其他关键任务，例如与空中交通管制的沟通和监控飞机的系统。展望未来，高度保持系统无疑将继续发展。传感器技术和人工智能的创新可能会导致更复杂的高度管理系统，进一步提高飞行的安全性和效率。飞行员将受益于增强的自动化，使他们能够专注于战略决策，而不是例行的高度调整。总之，高度保持系统在现代航空中扮演着至关重要的角色，为飞行员提供了以最小努力维持一致高度的能力。它的重要性不仅限于商业航班，还影响着休闲飞行和无人机操作。随着技术的不断进步，我们可以期待高度保持功能变得更加精细，为所有参与者的航空旅行提供更安全、更高效的保障。