airborne 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 allows for accurate topographic mapping from the sky.

这台空中摄影测量相机可以从空中进行精确的地形测绘。

2.Using an airborne photogrammetric camera, we were able to monitor changes in land use over time.

通过使用空中摄影测量相机，我们能够监测土地利用随时间的变化。

3.The team used an airborne photogrammetric camera to capture high-resolution images of the landscape.

团队使用了一个空中摄影测量相机来捕捉高分辨率的景观图像。

4.The airborne photogrammetric camera captured detailed images that helped in environmental assessments.

这台空中摄影测量相机捕捉的详细图像对环境评估非常有帮助。

5.For mapping purposes, we deployed an airborne photogrammetric camera over the urban area.

为了制图，我们在城市区域部署了一台空中摄影测量相机。

作文

In the realm of modern surveying and mapping, the role of technology cannot be overstated. One of the most significant advancements in this field is the development 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 images from an aerial perspective, enabling cartographers, urban planners, and environmental scientists to create precise maps and models of the Earth's surface.The airborne photogrammetric camera operates by taking photographs from an aircraft or drone, which are then processed to extract three-dimensional information about the terrain. This process involves capturing overlapping images from different angles, allowing software to triangulate points on the ground and generate accurate topographical maps. The ability to obtain such detailed information quickly and efficiently has made this technology indispensable in various applications.One of the primary benefits of using an airborne photogrammetric camera is the speed at which data can be collected. Traditional surveying methods often require extensive ground work, which can be time-consuming and labor-intensive. In contrast, aerial photography can cover large areas in a fraction of the time, making it ideal for projects that require quick turnaround times, such as disaster response or land use planning.Moreover, the accuracy of the data collected by an airborne photogrammetric camera is remarkable. With advancements in sensor technology and image processing software, the precision of aerial imagery has reached new heights. This level of detail is crucial for applications such as infrastructure development, where even minor inaccuracies can lead to significant issues down the line.In addition to speed and accuracy, the versatility of the airborne photogrammetric camera is another factor contributing to its widespread adoption. It can be used in various environments, from urban landscapes to remote wilderness areas, and can capture data under different weather conditions. This adaptability makes it an invaluable tool for researchers and professionals across multiple disciplines.Furthermore, the integration of Geographic Information Systems (GIS) with the data obtained from an airborne photogrammetric camera enhances its utility. GIS allows users to visualize, analyze, and interpret spatial data, providing deeper insights into geographical patterns and trends. This synergy between photogrammetry and GIS is particularly beneficial for urban planning, environmental monitoring, and resource management.As the demand for accurate and timely geographical information continues to grow, the airborne photogrammetric camera will undoubtedly play a crucial role in meeting these needs. Its ability to provide comprehensive data efficiently positions it as a cornerstone technology in the fields of surveying and mapping. Looking ahead, we can expect further innovations in this area, potentially leading to even more advanced imaging techniques and applications.In conclusion, the airborne photogrammetric camera represents a significant leap forward in the way we collect and analyze geographical data. Its advantages in speed, accuracy, and versatility make it an essential tool for professionals across various sectors. As technology continues to evolve, the potential for this innovative device to enhance our understanding of the world around us is limitless.

在现代测绘和制图领域，技术的作用不可低估。其中一个最重要的进展是开发了空中摄影测量相机，它彻底改变了我们捕捉和分析地理数据的方式。这种复杂的设备能够从空中视角收集高分辨率图像，使制图师、城市规划者和环境科学家能够创建地球表面的精确地图和模型。空中摄影测量相机通过从飞机或无人机拍摄照片来工作，这些照片随后被处理以提取有关地形的三维信息。这个过程涉及从不同角度捕捉重叠的图像，使软件能够三角测量地面上的点并生成准确的地形图。这种快速高效地获取详细信息的能力使这种技术在各种应用中变得不可或缺。使用空中摄影测量相机的主要好处之一是数据收集的速度。传统的测量方法通常需要大量的现场工作，这可能既耗时又劳动密集。相比之下，航空摄影可以在短时间内覆盖大面积，非常适合需要快速周转时间的项目，例如灾害响应或土地使用规划。此外，空中摄影测量相机收集的数据的准确性也非常显著。随着传感器技术和图像处理软件的进步，航空图像的精度达到了新的高度。这种细节水平对基础设施开发等应用至关重要，因为即使是微小的不准确性也可能导致后续出现重大问题。除了速度和准确性，空中摄影测量相机的多功能性也是其广泛采用的另一个因素。它可以在各种环境中使用，从城市景观到偏远的荒野地区，并且可以在不同的天气条件下捕获数据。这种适应性使其成为各个学科的研究人员和专业人士的宝贵工具。此外，将地理信息系统（GIS）与从空中摄影测量相机获得的数据整合，增强了其实用性。GIS允许用户可视化、分析和解释空间数据，提供对地理模式和趋势的更深刻见解。这种摄影测量和GIS之间的协同作用对城市规划、环境监测和资源管理特别有益。随着对准确和及时的地理信息的需求不断增长，空中摄影测量相机无疑将在满足这些需求方面发挥关键作用。它高效提供全面数据的能力使其在测绘领域成为基石技术。展望未来，我们可以期待这一领域进一步创新，可能导致更先进的成像技术和应用。总之，空中摄影测量相机代表了我们收集和分析地理数据方式的重大飞跃。其在速度、准确性和多功能性方面的优势使其成为各个行业专业人士的必备工具。随着技术的不断发展，这种创新设备增强我们对周围世界理解的潜力是无限的。