direction-range measurement system

简明释义

测向-测距系统

英英释义

例句

1.The military relies on a sophisticated direction-range measurement system 方向-范围测量系统 for navigation and targeting.

军方依赖于复杂的方向-范围测量系统进行导航和瞄准。

2.Our research team developed a prototype of the direction-range measurement system 方向-范围测量系统 that enhances drone operations.

我们的研究团队开发了一个原型方向-范围测量系统，增强了无人机的操作。

3.Engineers are testing the direction-range measurement system 方向-范围测量系统 for its effectiveness in urban environments.

工程师正在测试方向-范围测量系统在城市环境中的有效性。

4.The new direction-range measurement system 方向-范围测量系统 allows us to accurately pinpoint the location of incoming signals.

新的方向-范围测量系统允许我们准确定位传入信号的位置。

5.In geological surveys, a direction-range measurement system 方向-范围测量系统 can help identify mineral deposits accurately.

在地质调查中，方向-范围测量系统可以帮助准确识别矿藏。

作文

The advancement of technology has led to the development of various measurement systems that enhance our ability to understand and interact with the world around us. One such system is the direction-range measurement system, which plays a crucial role in fields such as navigation, surveying, and remote sensing. This system allows for the precise determination of both the direction and distance to a target, enabling users to obtain accurate spatial information. In this essay, we will explore the components, applications, and significance of the direction-range measurement system in modern technology.To begin with, the direction-range measurement system consists of two primary components: directional sensors and range finders. Directional sensors are responsible for determining the angle relative to a reference point or direction, often utilizing technologies like gyroscopes or compasses. On the other hand, range finders measure the distance to an object, employing methods such as laser ranging or ultrasonic waves. When combined, these components provide comprehensive data that can be used for various applications.One of the most prominent applications of the direction-range measurement system is in the field of navigation. For instance, ships and aircraft rely on this system to accurately determine their position relative to landmarks or other vessels. By knowing both the direction and distance to a target, pilots and captains can make informed decisions about their routes, ensuring safe and efficient travel. Furthermore, this system is also essential in the military for targeting and reconnaissance purposes, where precision is critical.In addition to navigation, the direction-range measurement system is widely used in surveying and mapping. Surveyors utilize this technology to gather data about land features, boundaries, and elevations. The accuracy provided by the system allows for the creation of detailed maps that are vital for urban planning, construction, and environmental studies. By integrating the direction-range measurement system with Geographic Information Systems (GIS), professionals can analyze spatial data more effectively, leading to better decision-making processes.Moreover, the significance of the direction-range measurement system extends to remote sensing applications as well. Satellites equipped with this system can capture images and data from vast areas of the Earth’s surface, allowing scientists to monitor changes in the environment, track natural disasters, and assess resource availability. The ability to measure both direction and range from space provides invaluable insights into our planet’s dynamics, contributing to research in climate change, urban development, and disaster management.In conclusion, the direction-range measurement system is an indispensable tool in various fields, providing critical information that enhances our understanding of spatial relationships. Its applications in navigation, surveying, and remote sensing highlight its versatility and importance in modern technology. As we continue to innovate and improve upon this system, we can expect even greater advancements that will further enrich our ability to navigate and comprehend the world around us. Ultimately, the direction-range measurement system exemplifies how technology can empower us to make informed decisions based on precise measurements, shaping the future of exploration and discovery.

科技的进步导致了各种测量系统的发展，这些系统增强了我们理解和与周围世界互动的能力。其中一个系统是方向-距离测量系统，它在导航、测量和遥感等领域发挥着至关重要的作用。该系统能够精确确定目标的方向和距离，使用户能够获取准确的空间信息。在本文中，我们将探讨方向-距离测量系统的组成部分、应用及其在现代技术中的重要性。首先，方向-距离测量系统由两个主要组成部分构成：方向传感器和测距仪。方向传感器负责确定相对于参考点或方向的角度，通常利用陀螺仪或指南针等技术。另一方面，测距仪则使用激光测距或超声波等方法测量到物体的距离。当这两个组件结合时，它们提供了全面的数据，可用于各种应用。方向-距离测量系统最显著的应用之一是在导航领域。例如，船只和飞机依赖该系统准确确定其相对于地标或其他船只的位置。通过了解目标的方向和距离，飞行员和船长可以对航线做出明智的决策，确保安全高效的旅行。此外，该系统在军事上也至关重要，用于目标定位和侦察任务，其中精确度至关重要。除了导航，方向-距离测量系统还广泛应用于测量和制图。测量师利用该技术收集有关土地特征、边界和高程的数据。该系统提供的准确性使得能够创建详细的地图，这对于城市规划、建筑和环境研究至关重要。通过将方向-距离测量系统与地理信息系统（GIS）集成，专业人员可以更有效地分析空间数据，从而改善决策过程。此外，方向-距离测量系统的重要性还扩展到遥感应用。配备该系统的卫星可以从地球表面的大面积区域捕获图像和数据，使科学家能够监测环境变化、跟踪自然灾害和评估资源可用性。从太空测量方向和范围的能力为我们对地球动态的深入了解提供了宝贵的见解，促进了气候变化、城市发展和灾害管理等领域的研究。总之，方向-距离测量系统是多个领域中不可或缺的工具，提供关键的信息，增强了我们对空间关系的理解。它在导航、测量和遥感中的应用突显了其多功能性和在现代技术中的重要性。随着我们继续创新和改进这一系统，我们可以期待更多的进步，进一步丰富我们导航和理解周围世界的能力。最终，方向-距离测量系统体现了技术如何赋予我们基于精确测量做出明智决策的能力，塑造探索和发现的未来。