aerial photogrammetry

简明释义

1. 航测; 2. 空中摄影测量; 3. 航空摄影测量学; 4. 航空摄影测量术; 5. 航空摄影测量制图;

英英释义

例句

1.The city planners incorporated aerial photogrammetry data to improve urban development strategies.

城市规划者将航测摄影测量数据纳入以改善城市发展策略。

2.The team used aerial photogrammetry to create detailed maps of the forest area.

团队使用航测摄影测量来创建森林区域的详细地图。

3.By employing aerial photogrammetry, we can assess land use changes over time.

通过采用航测摄影测量，我们可以评估土地利用变化。

4.The construction company relied on aerial photogrammetry for accurate site surveys.

建筑公司依赖于航测摄影测量进行准确的现场勘测。

5.Using aerial photogrammetry, researchers were able to analyze the effects of erosion on the coastline.

研究人员利用航测摄影测量分析了侵蚀对海岸线的影响。

作文

In the modern world, technology plays a crucial role in various fields, including mapping, surveying, and environmental monitoring. One of the most innovative techniques that have emerged is aerial photogrammetry, which refers to the process of using photographs taken from the air to create accurate maps and three-dimensional models of the Earth's surface. This method has revolutionized how we collect geographical data and has numerous applications in urban planning, agriculture, and disaster management.The core principle of aerial photogrammetry lies in capturing images from different angles and elevations. These images are then analyzed and processed using specialized software to extract precise measurements and spatial information. The result is a detailed representation of the terrain, which can include features such as buildings, roads, vegetation, and water bodies. Unlike traditional surveying methods, which can be time-consuming and labor-intensive, aerial photogrammetry allows for rapid data collection over large areas, making it an efficient choice for many projects.One of the significant advantages of aerial photogrammetry is its ability to provide high-resolution imagery that can be used for various purposes. For instance, urban planners can utilize this technology to assess land use patterns, monitor infrastructure development, and plan future expansions. In agriculture, farmers can benefit from the insights gained through aerial photogrammetry to monitor crop health, optimize irrigation, and manage resources more effectively. Additionally, during natural disasters, emergency responders can use aerial imagery to evaluate damage and coordinate relief efforts more efficiently.Moreover, the integration of unmanned aerial vehicles (UAVs), commonly known as drones, with aerial photogrammetry has further enhanced the capabilities of this technique. Drones equipped with high-resolution cameras can capture images at lower altitudes, providing even more detailed data than traditional aircraft. This advancement has made it possible for smaller organizations and individuals to access aerial photogrammetry services, democratizing the technology and expanding its applications.However, despite its many benefits, aerial photogrammetry does come with certain challenges. One of the primary concerns is the need for accurate georeferencing, which ensures that the captured images correspond correctly to their real-world locations. Additionally, weather conditions can significantly impact the quality of aerial photographs, making it essential to plan flights carefully to avoid clouds, rain, or poor visibility.In conclusion, aerial photogrammetry has transformed the way we gather and analyze geographical data. Its ability to produce accurate and detailed representations of the Earth's surface has made it an invaluable tool across various industries. As technology continues to advance, we can expect to see even more innovative applications of aerial photogrammetry, ultimately contributing to better decision-making and improved outcomes in urban planning, agriculture, and disaster response. The future of this technology looks promising, and it will undoubtedly play a significant role in shaping our understanding of the world around us.

在现代世界中，技术在各个领域中发挥着至关重要的作用，包括制图、测量和环境监测。其中一个新兴的创新技术是aerial photogrammetry，它指的是利用从空中拍摄的照片创建准确地图和地球表面三维模型的过程。这种方法彻底改变了我们收集地理数据的方式，并在城市规划、农业和灾害管理等方面有着广泛的应用。aerial photogrammetry的核心原理在于从不同角度和高度捕捉图像。这些图像随后通过专门的软件进行分析和处理，以提取精确的测量和空间信息。最终结果是对地形的详细表示，其中可以包括建筑物、道路、植被和水体等特征。与传统的测量方法相比，后者通常耗时且劳动密集型，aerial photogrammetry允许在大面积区域内快速收集数据，使其成为许多项目的高效选择。aerial photogrammetry的一个显著优势是能够提供可用于各种目的的高分辨率图像。例如，城市规划者可以利用这一技术评估土地使用模式、监测基础设施发展和规划未来扩展。在农业中，农民可以通过aerial photogrammetry获得的见解来监测作物健康、优化灌溉和更有效地管理资源。此外，在自然灾害发生期间，紧急响应人员可以使用航空图像评估损失并更有效地协调救援工作。此外，无人机（UAVs）与aerial photogrammetry的结合进一步增强了这一技术的能力。配备高分辨率相机的无人机可以在较低的高度捕捉图像，提供比传统飞机更详细的数据。这一进步使得较小的组织和个人能够获得aerial photogrammetry服务，从而使这项技术更加民主化，并扩展其应用。然而，尽管有许多好处，aerial photogrammetry确实面临某些挑战。主要问题之一是需要准确的地理参考，这确保捕获的图像与其真实世界位置正确对应。此外，天气条件会显著影响航空照片的质量，因此必须仔细计划飞行，以避免云层、降雨或能见度差。总之，aerial photogrammetry已经改变了我们收集和分析地理数据的方式。它产生准确和详细的地球表面表示的能力使其成为各行业不可或缺的工具。随着技术的不断进步，我们可以期待看到aerial photogrammetry的更多创新应用，最终有助于在城市规划、农业和灾害响应中做出更好的决策和改善结果。这项技术的未来看起来充满希望，毫无疑问将在塑造我们对周围世界的理解中发挥重要作用。