direction and range acquisition system

简明释义

方向与距离探测系统

英英释义

例句

1.In modern artillery, a direction and range acquisition system is essential for effective fire support.

在现代炮兵中，方向和距离获取系统对于有效的火力支援至关重要。

2.The drone is equipped with a direction and range acquisition system that helps it navigate through complex terrains.

这架无人机配备了方向和距离获取系统，帮助它在复杂地形中导航。

3.For surveying purposes, engineers often rely on a direction and range acquisition system to gather accurate data.

为了测量目的，工程师通常依赖方向和距离获取系统来收集准确的数据。

4.The military uses a direction and range acquisition system to accurately target enemy positions.

军方使用方向和距离获取系统来准确定位敌方阵地。

5.The fishing boat was fitted with a direction and range acquisition system to locate the best fishing spots.

这艘渔船装配了方向和距离获取系统以找到最佳捕鱼地点。

作文

In the world of modern technology, the need for precise navigation and targeting systems has become increasingly critical. One such system that plays a vital role in various applications is the direction and range acquisition system. This system is designed to determine the direction and distance of a target from a specific point, which is essential for both military and civilian uses. Understanding how this system works can provide insights into its importance and applications.The direction and range acquisition system utilizes various sensors and technologies to gather data about the environment. These sensors can include radar, laser, and GPS technologies, each serving a unique purpose in enhancing the accuracy of the system. For instance, radar can detect objects at great distances, while laser systems can provide precise measurements of distance to a target. GPS technology, on the other hand, offers real-time location data, which is crucial for determining the position of both the observer and the target.One of the primary applications of the direction and range acquisition system is in military operations. In combat scenarios, knowing the exact location of enemy forces or strategic assets can be the difference between success and failure. The system allows military personnel to accurately gauge the distance to their targets and adjust their strategies accordingly. Furthermore, this technology is also employed in missile guidance systems, where precision is paramount. By integrating various data sources, the system can ensure that a missile hits its intended target with minimal collateral damage.Beyond military uses, the direction and range acquisition system is also utilized in civilian sectors. For example, in aviation, air traffic control relies on these systems to track aircraft and manage airspace efficiently. This ensures the safety of flights and helps prevent accidents. Similarly, in maritime navigation, ships use these systems to determine their position relative to other vessels and navigational hazards, ensuring safe passage.Moreover, the direction and range acquisition system has found applications in the field of robotics and autonomous vehicles. These machines need to navigate their environments accurately to perform tasks effectively. By implementing this system, robots can avoid obstacles, map their surroundings, and interact with their environment in a more intelligent manner. This technology is paving the way for advancements in automation and artificial intelligence, making it a critical area of research and development.In conclusion, the direction and range acquisition system is an integral part of modern navigation and targeting technology. Its ability to provide accurate direction and distance measurements has made it invaluable in both military and civilian applications. As technology continues to evolve, we can expect further enhancements to these systems, leading to even greater accuracy and efficiency. Understanding the mechanics and applications of the direction and range acquisition system not only highlights its significance but also opens avenues for future innovations in various fields. The continued development of this technology will undoubtedly shape the future of navigation and targeting systems across multiple domains.

在现代科技的世界中，精确的导航和目标定位系统的需求变得越来越重要。其中一个在各种应用中发挥重要作用的系统是方向和范围获取系统。该系统旨在确定目标与特定点之间的方向和距离，这对于军事和民用用途都至关重要。理解这个系统的工作原理可以提供对其重要性和应用的深入了解。方向和范围获取系统利用各种传感器和技术来收集有关环境的数据。这些传感器可以包括雷达、激光和GPS技术，每种技术在提高系统准确性方面都发挥着独特的作用。例如，雷达可以在很远的距离探测物体，而激光系统则可以提供到目标的精确距离测量。另一方面，GPS技术则提供实时位置数据，这对于确定观察者和目标的位置至关重要。方向和范围获取系统的主要应用之一是在军事行动中。在战斗场景中，知道敌方部队或战略资产的确切位置可能是成功与失败之间的区别。该系统使军事人员能够准确评估目标的距离，并相应调整他们的战略。此外，这项技术还用于导弹制导系统，其中精度至关重要。通过整合各种数据源，该系统可以确保导弹以最小的附带损害打击其预定目标。除了军事用途，方向和范围获取系统还在民用领域中得到了应用。例如，在航空领域，空中交通管制依赖这些系统来跟踪飞机并有效管理空域。这确保了航班的安全，并帮助防止事故。同样，在海上导航中，船只使用这些系统来确定它们相对于其他船只和导航危险的位置，以确保安全通行。此外，方向和范围获取系统在机器人和自动驾驶车辆领域也找到了应用。这些机器需要准确地导航其环境，以有效执行任务。通过实施该系统，机器人可以避开障碍物，绘制周围环境的地图，并以更智能的方式与环境互动。这项技术正在为自动化和人工智能的进步铺平道路，使其成为一个关键的研究和开发领域。总之，方向和范围获取系统是现代导航和目标定位技术的重要组成部分。其提供准确的方向和距离测量的能力使其在军事和民用应用中都变得不可或缺。随着技术的不断发展，我们可以期待这些系统的进一步增强，带来更高的准确性和效率。理解方向和范围获取系统的机制和应用不仅突显了其重要性，还为未来在多个领域的创新打开了途径。这项技术的持续发展无疑将塑造未来在多个领域的导航和目标定位系统。