digital azimuth range tracking system

简明释义

数字式方位距离跟踪系统

英英释义

例句

1.In maritime operations, the digital azimuth range tracking system helps track ships accurately.

在海事操作中，数字方位范围跟踪系统帮助准确跟踪船只。

2.The digital azimuth range tracking system provides real-time data for meteorological studies.

该数字方位范围跟踪系统为气象研究提供实时数据。

3.Our research team developed a digital azimuth range tracking system to enhance drone navigation.

我们的研究团队开发了一种数字方位范围跟踪系统以增强无人机导航。

4.The new digital azimuth range tracking system improves the accuracy of satellite positioning.

新的数字方位范围跟踪系统提高了卫星定位的准确性。

5.Engineers are testing the digital azimuth range tracking system for military applications.

工程师正在测试用于军事应用的数字方位范围跟踪系统。

作文

In recent years, advancements in technology have led to the development of sophisticated systems that enhance our ability to track objects with precision. One such innovation is the digital azimuth range tracking system, which plays a crucial role in various applications, from military operations to civilian aviation. This system utilizes digital signals to determine the azimuth and range of an object, making it an invaluable tool for surveillance and navigation.The term 'azimuth' refers to the angle between a reference direction (usually true north) and the line connecting the observer to the object being tracked. In simpler terms, it is the horizontal direction of the target. The digital azimuth range tracking system combines this concept with range measurement, which indicates how far away the object is from the observer. By integrating these two measurements, the system can provide precise information about the location and movement of various targets.One of the primary advantages of the digital azimuth range tracking system is its ability to operate effectively in real-time. This capability is essential in scenarios where timely information is critical, such as in air traffic control or military engagements. For instance, air traffic controllers rely on this system to track multiple aircraft simultaneously, ensuring safe distances between them and preventing potential collisions. The digital aspect of the system allows for quick data processing, enabling controllers to make informed decisions rapidly.Moreover, the digital azimuth range tracking system can be integrated with other technologies, such as radar and GPS, to enhance its functionality. When combined with radar, the system can detect objects even in adverse weather conditions, providing a reliable tracking solution. Similarly, when paired with GPS, it can offer precise location data, further improving situational awareness.Another significant application of the digital azimuth range tracking system is in the field of robotics and autonomous vehicles. These systems require accurate tracking capabilities to navigate complex environments safely. By utilizing the azimuth and range data provided by the tracking system, robots can make informed decisions about their movement, avoiding obstacles and efficiently reaching their destinations.In addition to its practical applications, the digital azimuth range tracking system also has implications for research and development. Scientists and engineers are continually exploring ways to improve the accuracy and reliability of these systems. Innovations in signal processing and data analytics are paving the way for more advanced tracking solutions that can adapt to dynamic environments and changing conditions.In conclusion, the digital azimuth range tracking system represents a significant leap forward in tracking technology. Its ability to provide real-time, accurate information about the azimuth and range of objects makes it an essential tool in various fields, including aviation, military, robotics, and scientific research. As technology continues to evolve, we can expect further enhancements to these systems, leading to even greater precision and reliability in tracking applications. The future of tracking technology is undoubtedly bright, and the digital azimuth range tracking system will remain at the forefront of these advancements.

近年来，技术的进步导致了复杂系统的发展，这些系统增强了我们精确追踪物体的能力。其中一种创新是数字方位距离跟踪系统，它在军事行动到民用航空等各种应用中发挥着关键作用。该系统利用数字信号来确定物体的方位角和距离，使其成为监视和导航的宝贵工具。“方位”一词指的是参考方向（通常是真北）与连接观察者和被跟踪物体之间的线的角度。简单来说，它是目标的水平方向。数字方位距离跟踪系统将这一概念与距离测量结合起来，后者指示物体距离观察者的远近。通过整合这两个测量值，该系统可以提供关于各种目标的位置和运动的精确信息。数字方位距离跟踪系统的主要优势之一是其能够有效地实时操作。这种能力在及时信息至关重要的场景中至关重要，例如在空中交通控制或军事交战中。例如，空中交通管制员依靠该系统同时跟踪多架飞机，确保它们之间保持安全距离，防止潜在碰撞。系统的数字化特性允许快速的数据处理，使控制人员能够迅速做出明智的决策。此外，数字方位距离跟踪系统可以与其他技术（如雷达和GPS）集成，以增强其功能。当与雷达结合时，该系统可以在恶劣天气条件下检测物体，提供可靠的跟踪解决方案。同样，当与GPS配对时，它可以提供精确的位置信息，进一步提高态势感知。数字方位距离跟踪系统的另一个重要应用是在机器人和自主车辆领域。这些系统需要准确的跟踪能力，以安全地导航复杂环境。通过利用跟踪系统提供的方位和距离数据，机器人可以就其运动做出明智的决策，避免障碍并高效到达目的地。除了实际应用外，数字方位距离跟踪系统还对研究和开发具有重要意义。科学家和工程师们不断探索改进这些系统的准确性和可靠性的方法。信号处理和数据分析方面的创新正在为更先进的跟踪解决方案铺平道路，这些解决方案能够适应动态环境和变化条件。总之，数字方位距离跟踪系统代表了跟踪技术的一次重大飞跃。它提供实时、准确的物体方位角和距离信息，使其成为航空、军事、机器人和科学研究等各个领域的重要工具。随着技术的不断发展，我们可以期待这些系统进一步增强，带来更高的精确度和可靠性。跟踪技术的未来无疑是光明的，而数字方位距离跟踪系统将始终处于这些进步的前沿。