airboune photogrammetric camera

简明释义

1. 机载摄影机; 2. 航空摄影机;

英英释义

例句

1.The airborne photogrammetric camera can capture images at high resolutions, making it ideal for urban planning.

这台航空摄影测量相机能够以高分辨率捕捉图像，非常适合城市规划。

2.The team used an airborne photogrammetric camera to capture detailed images of the landscape for their mapping project.

团队使用了一个航空摄影测量相机来获取景观的详细图像，以用于他们的制图项目。

3.With the help of an airborne photogrammetric camera, we were able to create accurate 3D models of the terrain.

在航空摄影测量相机的帮助下，我们能够创建地形的准确3D模型。

4.Researchers utilized an airborne photogrammetric camera to analyze changes in coastal erosion over time.

研究人员利用航空摄影测量相机分析海岸侵蚀随时间的变化。

5.The airborne photogrammetric camera proved essential for surveying large agricultural fields from above.

这台航空摄影测量相机对于从空中勘测大面积农业用地至关重要。

作文

In the realm of modern surveying and mapping, technology plays a pivotal role in enhancing accuracy and efficiency. One of the most significant advancements in this field is the use of the airborne photogrammetric camera, which has revolutionized how we capture and analyze geographical data. This sophisticated device allows for the collection of high-resolution aerial images that can be transformed into precise maps and three-dimensional models. The airborne photogrammetric camera is mounted on an aircraft, enabling it to cover large areas quickly and effectively. This capability is particularly beneficial for projects that require extensive data collection over vast terrains, such as urban planning, environmental monitoring, and disaster management.The process begins with the aircraft flying at a predetermined altitude, equipped with the airborne photogrammetric camera. As the plane flies over the target area, the camera captures overlapping images of the landscape below. These images are then processed using specialized software that aligns them based on common reference points, creating a comprehensive mosaic of the terrain. This method not only saves time compared to traditional ground surveying but also provides a level of detail that is often unattainable through terrestrial means.Furthermore, the data obtained from the airborne photogrammetric camera can be enhanced by integrating additional technologies such as LiDAR (Light Detection and Ranging). LiDAR complements the imagery captured by the camera by providing precise elevation data, allowing for the creation of highly accurate topographical maps. This integration is particularly useful in applications such as forestry management, where understanding the height and density of vegetation is crucial.The versatility of the airborne photogrammetric camera extends beyond just mapping; it is also instrumental in various industries including agriculture, mining, and construction. For instance, farmers utilize the data collected by these cameras to monitor crop health and optimize irrigation strategies. In the mining sector, companies use aerial imagery to assess site conditions and plan extraction processes more effectively. Meanwhile, construction firms rely on the detailed maps generated from aerial images for project planning and progress tracking.Despite its many advantages, the use of the airborne photogrammetric camera is not without challenges. Weather conditions can significantly impact image quality, making it essential for operators to choose optimal times for data collection. Additionally, the cost of acquiring and operating such advanced technology can be prohibitive for smaller organizations. However, as technology continues to advance and become more accessible, it is likely that the use of airborne photogrammetric cameras will become increasingly commonplace across various sectors.In conclusion, the airborne photogrammetric camera represents a remarkable leap forward in the field of aerial surveying and mapping. Its ability to capture high-resolution images quickly and accurately has transformed how we gather and analyze geographical information. As industries continue to discover new applications for this technology, the potential for improved decision-making and resource management is immense. The future of surveying is undoubtedly bright, thanks to innovations like the airborne photogrammetric camera.

在现代测绘和制图领域，技术在提高准确性和效率方面发挥着关键作用。其中最重要的进展之一就是使用空中摄影测量相机，它彻底改变了我们捕捉和分析地理数据的方式。这种复杂的设备可以收集高分辨率的航空图像，这些图像可以转化为精确的地图和三维模型。空中摄影测量相机安装在飞机上，使其能够快速有效地覆盖大面积区域。这种能力对于需要在广阔地形上进行大量数据收集的项目尤为有利，例如城市规划、环境监测和灾害管理。这个过程开始于飞机以预定高度飞行，配备有空中摄影测量相机。当飞机飞越目标区域时，相机捕捉到重叠的地面图像。这些图像随后通过专门的软件进行处理，基于共同的参考点对齐，从而创建出该地区的综合马赛克。这种方法不仅比传统的地面测量节省时间，而且提供的细节水平通常是通过陆地方式无法实现的。此外，从空中摄影测量相机获得的数据可以通过整合其他技术（如LiDAR（光学探测与测距））来增强。LiDAR通过提供精确的高程数据来补充相机捕获的图像，从而允许创建高度准确的地形图。这种整合在农业管理等应用中特别有用，因为了解植被的高度和密度至关重要。空中摄影测量相机的多功能性超越了制图，它在农业、采矿和建筑等各个行业也发挥着重要作用。例如，农民利用这些相机收集的数据来监测作物健康并优化灌溉策略。在采矿行业，公司使用航空图像评估现场条件并更有效地规划开采过程。同时，建筑公司依赖从航空图像生成的详细地图进行项目规划和进度跟踪。尽管有许多优点，但使用空中摄影测量相机并非没有挑战。天气条件会显著影响图像质量，因此操作员必须选择最佳的时间进行数据收集。此外，获取和操作这种先进技术的成本可能对较小的组织来说是一个负担。然而，随着技术的不断进步和变得更加可及，使用空中摄影测量相机的情况可能会在各个部门变得越来越普遍。总之，空中摄影测量相机代表了航空测量和制图领域的显著飞跃。它快速且准确地捕捉高分辨率图像的能力改变了我们收集和分析地理信息的方式。随着各行业继续发现这种技术的新应用，改进决策和资源管理的潜力是巨大的。由于像空中摄影测量相机这样的创新，测绘的未来无疑是光明的。