azimuth navigation system
简明释义
方位导航系统
英英释义
A system used for determining the direction of an object or location relative to a reference point, typically using angles measured from a fixed point. | 一种用于确定物体或位置相对于参考点方向的系统,通常使用从固定点测量的角度。 |
例句
1.Maritime vessels often use an azimuth navigation system for precise positioning at sea.
海洋船只通常使用方位导航系统在海上进行精确定位。
2.In military operations, the azimuth navigation system is crucial for targeting and reconnaissance.
在军事行动中,方位导航系统对目标定位和侦察至关重要。
3.The pilot relied on the azimuth navigation system to maintain a steady course during the flight.
飞行员依赖于方位导航系统在飞行过程中保持稳定航向。
4.The azimuth navigation system helped the hikers find their way through the dense forest.
这个方位导航系统帮助徒步旅行者在茂密的森林中找到方向。
5.The azimuth navigation system provides real-time data for better route planning in logistics.
这个方位导航系统提供实时数据,以便在物流中更好地规划路线。
作文
The advancement of technology has revolutionized various fields, particularly in navigation. One of the most significant innovations in this area is the azimuth navigation system. This system plays a crucial role in determining the direction of a moving object by measuring its angular position relative to a reference point, usually the North. Understanding how the azimuth navigation system works can greatly enhance our appreciation for modern navigation techniques.To begin with, the term 'azimuth' refers to the angle between a reference direction (typically true north) and the line from the observer to a specific point. This measurement is expressed in degrees, ranging from 0° to 360°. The azimuth navigation system utilizes this concept to provide accurate directional data, which is essential for various applications, including maritime navigation, aviation, and even hiking.In maritime navigation, the azimuth navigation system assists sailors in charting their course across vast oceans. By knowing the azimuth of their destination, seafarers can adjust their ship's heading to ensure they are on the right path. This system is particularly useful in situations where visual landmarks are absent, such as in open waters. With the aid of advanced instruments like gyroscopes and compasses, the azimuth navigation system allows for precise navigation, reducing the risk of getting lost at sea.Similarly, in aviation, pilots rely heavily on the azimuth navigation system for safe and efficient flight operations. During takeoff and landing, as well as while cruising at high altitudes, pilots must maintain a clear understanding of their aircraft's orientation in relation to the ground. By utilizing the azimuth data provided by onboard instruments, pilots can make informed decisions about their flight path, ensuring they reach their destination without incident.Moreover, the azimuth navigation system is not limited to professional navigation. Outdoor enthusiasts, such as hikers and campers, can also benefit from this technology. By carrying a compass and learning how to interpret azimuth readings, individuals can navigate through unfamiliar terrains with confidence. This practical application of the azimuth navigation system empowers people to explore nature safely and enjoyably.The significance of the azimuth navigation system extends beyond just navigation; it also plays a vital role in scientific research. For instance, astronomers use azimuth measurements to locate celestial bodies in the night sky. By combining azimuth data with altitude measurements, scientists can pinpoint the exact position of stars, planets, and other astronomical phenomena. This integration of navigation systems into scientific exploration highlights the versatility and importance of the azimuth navigation system.In conclusion, the azimuth navigation system is an invaluable tool that enhances our ability to navigate the world around us. From maritime and aviation applications to outdoor adventures and scientific research, this system provides crucial directional information that ensures safety and efficiency. As technology continues to evolve, the principles behind the azimuth navigation system will remain fundamental to our understanding of navigation, guiding us through both familiar and uncharted territories.
科技的进步彻底改变了多个领域,尤其是在导航方面。这个领域最重要的创新之一就是方位角导航系统。该系统在确定移动物体的方向方面发挥着至关重要的作用,通过测量其相对于参考点(通常是北方)的角度位置来实现。理解方位角导航系统的工作原理可以极大地增强我们对现代导航技术的欣赏。首先,'方位角'一词指的是参考方向(通常是真北)与观察者到特定点之间的线的角度。这一测量以度数表示,范围从0°到360°。方位角导航系统利用这一概念提供准确的方向数据,这对于海洋导航、航空甚至徒步旅行等各种应用都至关重要。在海洋导航中,方位角导航系统帮助水手在广阔的海洋中绘制航线。通过了解目的地的方位角,水手可以调整船只的航向,以确保他们走在正确的道路上。该系统在视觉地标缺失的情况下特别有用,例如在开阔水域中。借助于陀螺仪和指南针等先进仪器,方位角导航系统能够实现精确导航,降低迷失在海上的风险。同样,在航空领域,飞行员也非常依赖方位角导航系统进行安全和高效的飞行操作。在起飞和降落时,以及在高空巡航时,飞行员必须清楚了解飞机相对于地面的朝向。通过利用机载仪器提供的方位角数据,飞行员可以做出明智的飞行路径决策,确保安全到达目的地。此外,方位角导航系统并不限于专业导航。户外爱好者,如徒步旅行者和露营者,也可以从这项技术中受益。通过携带指南针并学习如何解读方位角读数,个人可以自信地在陌生的地形中导航。这种对方位角导航系统的实际应用使人们能够安全愉快地探索大自然。方位角导航系统的重要性不仅限于导航,它在科学研究中也发挥着至关重要的作用。例如,天文学家使用方位角测量来定位夜空中的天体。通过将方位角数据与高度测量结合起来,科学家可以准确确定星星、行星和其他天文现象的位置。这种导航系统与科学探索的整合凸显了方位角导航系统的多功能性和重要性。总之,方位角导航系统是一种宝贵的工具,增强了我们在周围世界中导航的能力。从海洋和航空应用到户外冒险和科学研究,该系统提供了确保安全和效率的关键方向信息。随着技术的不断发展,方位角导航系统背后的原理将继续成为我们理解导航的基础,引导我们穿越熟悉和未知的领域。
相关单词
