terrain following radar

简明释义

地形显示雷达

英英释义

例句

1.The new fighter jet model incorporates advanced terrain following radar for better maneuverability in complex environments.

新型战斗机模型采用了先进的地形跟随雷达，以在复杂环境中提高机动性。

2.The military aircraft was equipped with terrain following radar to navigate through mountainous regions safely.

这架军用飞机配备了地形跟随雷达，以安全地穿越山区。

3.In search and rescue operations, terrain following radar helps helicopters avoid obstacles while flying low.

在搜救行动中，地形跟随雷达帮助直升机在低空飞行时避开障碍物。

4.Commercial jets use terrain following radar during approach to ensure a smooth landing on uneven terrain.

商用喷气机在降落时使用地形跟随雷达，以确保在不平坦的地面上顺利降落。

5.The drone's terrain following radar allows it to maintain a constant altitude above the ground, even in hilly areas.

这款无人机的地形跟随雷达使其即使在丘陵地区也能保持与地面的恒定高度。

作文

The development of aviation technology has greatly transformed the way we navigate and operate aircraft. One of the most significant advancements in this field is the introduction of systems like terrain following radar (地形跟随雷达). This technology allows aircraft to fly at low altitudes while maintaining a safe distance from the ground, which is particularly crucial in military operations and challenging terrains.Understanding how terrain following radar works is essential for appreciating its importance. Essentially, this system uses radar waves to detect the terrain below the aircraft. It constantly measures the distance between the aircraft and the ground, adjusting the flight path in real-time to ensure that the aircraft remains at a predetermined altitude above the surface. This capability is particularly valuable in mountainous regions or areas with variable topography, where traditional navigation methods might fail.Moreover, terrain following radar enhances the safety of low-level flying by providing pilots with critical information about potential obstacles, such as hills, buildings, and other structures. By integrating this technology with autopilot systems, pilots can focus on other aspects of flight management, knowing that the terrain following radar will help avoid collisions with the ground.In military applications, the ability to fly under the radar—literally—can be a game-changer. Aircraft equipped with terrain following radar can evade enemy detection systems more effectively by flying at lower altitudes, where radar coverage is often less reliable. This stealth capability not only increases the chances of mission success but also enhances the safety of the crew and the aircraft itself.However, the implementation of terrain following radar is not without challenges. The technology requires precise calibration and maintenance to function correctly. Any malfunction could lead to catastrophic outcomes, especially when flying at low altitudes. Additionally, pilots must undergo extensive training to understand how to interpret the data provided by the terrain following radar, ensuring they can make informed decisions during flight.As aviation continues to evolve, the role of technologies like terrain following radar will likely expand. Innovations in radar technology may lead to even more sophisticated systems capable of providing additional data about the environment, such as weather conditions and air traffic. These advancements could further enhance flight safety and efficiency, making air travel safer for everyone.In conclusion, terrain following radar (地形跟随雷达) represents a significant leap forward in aviation technology. Its ability to assist pilots in navigating complex terrains at low altitudes is invaluable, particularly in military contexts. While there are challenges associated with its use, the benefits far outweigh the drawbacks. As technology continues to advance, we can expect terrain following radar to play an increasingly vital role in the future of aviation, ensuring safer skies for all.

航空技术的发展极大地改变了我们导航和操作飞机的方式。在这个领域中，最重要的进展之一是像地形跟随雷达这样的系统的引入。这项技术允许飞机在低空飞行，同时与地面保持安全距离，这在军事行动和复杂地形中尤为重要。理解地形跟随雷达如何工作对于欣赏其重要性至关重要。基本上，该系统使用雷达波来探测飞机下方的地形。它不断测量飞机与地面之间的距离，实时调整飞行路径，以确保飞机保持在预定的高度。这种能力在山区或地形变化较大的地区尤其有价值，因为传统导航方法可能会失效。此外，地形跟随雷达通过提供关于潜在障碍物（如山丘、建筑物和其他结构）的关键信息，增强了低空飞行的安全性。通过将这项技术与自动驾驶系统集成，飞行员可以专注于飞行管理的其他方面，知道地形跟随雷达将帮助避免与地面的碰撞。在军事应用中，能够在雷达下飞行——字面意义上——可以改变游戏规则。配备地形跟随雷达的飞机可以通过在低空飞行来更有效地躲避敌方检测系统，在低空区域，雷达覆盖通常不那么可靠。这种隐身能力不仅增加了任务成功的机会，还提高了机组人员和飞机本身的安全性。然而，实施地形跟随雷达并非没有挑战。这项技术需要精确的校准和维护才能正常运行。任何故障都可能导致灾难性后果，尤其是在低空飞行时。此外，飞行员必须接受广泛的培训，以理解地形跟随雷达提供的数据，确保他们能够在飞行中做出明智的决策。随着航空业的不断发展，像地形跟随雷达这样的技术的作用可能会扩大。雷达技术的创新可能会导致更复杂的系统，能够提供关于环境的额外数据，例如天气条件和空中交通。这些进步可能进一步增强飞行的安全性和效率，使航空旅行对每个人来说更加安全。总之，地形跟随雷达（地形跟随雷达）代表了航空技术的一次重大飞跃。它在复杂地形中帮助飞行员在低空导航的能力是无价的，特别是在军事背景下。尽管使用中存在挑战，但好处远远超过缺点。随着技术的不断进步，我们可以期待地形跟随雷达在未来航空中的作用日益重要，为所有人确保更安全的天空。