aerial photographic mapping

简明释义

1. 航空摄影制图; 2. 航空摄影制图学; 3. 航空测绘;

英英释义

例句

1.Using aerial photographic mapping 航空摄影测绘, researchers were able to create detailed topographic maps of the mountainous region.

研究人员利用航空摄影测绘 航空摄影测绘，能够创建出该山区的详细地形图。

2.The city council commissioned a project that involves aerial photographic mapping 航空摄影测绘 to assess land use changes over the past decade.

市议会委托了一项涉及航空摄影测绘 航空摄影测绘的项目，以评估过去十年土地使用变化。

3.The environmental agency relies on aerial photographic mapping 航空摄影测绘 to monitor deforestation in remote areas.

环保机构依赖航空摄影测绘 航空摄影测绘来监测偏远地区的森林砍伐情况。

4.Developers used aerial photographic mapping 航空摄影测绘 to plan the layout of the new housing estate effectively.

开发商使用航空摄影测绘 航空摄影测绘有效规划新住宅区的布局。

5.The historical society utilized aerial photographic mapping 航空摄影测绘 to document ancient ruins from above.

历史学会利用航空摄影测绘 航空摄影测绘从空中记录古代遗址。

作文

In the field of geography and environmental science, one of the most innovative techniques used is aerial photographic mapping. This method involves capturing images of the Earth's surface from an elevated position, typically using aircraft or drones equipped with high-resolution cameras. The importance of aerial photographic mapping cannot be overstated, as it provides a comprehensive view of landscapes that ground-based surveys simply cannot achieve. By utilizing this technique, researchers can gather data on land use, vegetation cover, and even urban development over time.The process begins with planning the flight path of the aircraft or drone to ensure optimal coverage of the area of interest. Once the images are captured, they are processed using specialized software that stitches them together to create a detailed map. This digital map can then be analyzed for various purposes, such as assessing environmental changes, planning urban developments, or even conducting archaeological surveys.One of the key advantages of aerial photographic mapping is its ability to cover large areas quickly and efficiently. Traditional mapping methods often require extensive manpower and time, whereas aerial mapping can significantly reduce both. Moreover, the high-resolution images obtained through this method allow for precise measurements and detailed analyses, which are essential for effective decision-making in fields like urban planning and environmental conservation.Additionally, aerial photographic mapping plays a crucial role in disaster management. After a natural disaster, such as an earthquake or flood, aerial images can provide immediate insights into the extent of the damage. These images help emergency responders assess the situation and allocate resources more effectively. Furthermore, they can be used to monitor recovery efforts and evaluate the effectiveness of rebuilding strategies.Another significant application of aerial photographic mapping is in agriculture. Farmers and agronomists utilize this technology to monitor crop health, optimize irrigation practices, and manage pest control. By analyzing aerial images, they can identify areas of stress within their fields, allowing for targeted interventions that can enhance yield and reduce costs.Despite its many advantages, aerial photographic mapping is not without challenges. Issues such as weather conditions, legal restrictions regarding airspace, and the need for skilled personnel to interpret the data can complicate its implementation. However, advancements in drone technology and image processing software are continuously improving the accessibility and accuracy of this mapping technique.In conclusion, aerial photographic mapping is a powerful tool that has transformed the way we collect and analyze geographical data. Its applications span multiple fields, from environmental science to urban planning and disaster management. As technology continues to evolve, it is likely that the use of aerial photographic mapping will become even more widespread, paving the way for more informed decision-making and sustainable practices worldwide.

在地理和环境科学领域，使用的一种创新技术是航空摄影制图。这种方法涉及从高处捕捉地球表面的图像，通常使用配备高分辨率相机的飞机或无人机。航空摄影制图的重要性不容小觑，因为它提供了对地形的全面视角，而地面调查根本无法实现。通过利用这一技术，研究人员可以收集有关土地利用、植被覆盖甚至城市发展随时间变化的数据。该过程始于规划飞机或无人机的飞行路径，以确保最佳覆盖感兴趣区域。一旦图像被捕获，它们会使用专业软件进行处理，将它们拼接在一起以创建详细的地图。然后，可以分析此数字地图以用于各种目的，例如评估环境变化、规划城市发展，甚至进行考古调查。航空摄影制图的一个主要优势是其快速有效地覆盖大面积的能力。传统的制图方法通常需要大量的人力和时间，而航空制图可以显著减少这两者。此外，通过这种方法获得的高分辨率图像允许进行精确测量和详细分析，这对于城市规划和环境保护等领域的有效决策至关重要。此外，航空摄影制图在灾害管理中发挥着关键作用。在自然灾害发生后，例如地震或洪水，航空图像可以提供对损害程度的即时洞察。这些图像帮助紧急救援人员评估情况并更有效地分配资源。此外，它们还可以用于监测恢复工作并评估重建策略的有效性。航空摄影制图的另一个重要应用是在农业领域。农民和农艺师利用这项技术来监测作物健康、优化灌溉实践和管理病虫害控制。通过分析航空图像，他们可以识别田地内的压力区域，从而进行有针对性的干预，提高产量并降低成本。尽管有许多优点，航空摄影制图也并非没有挑战。天气条件、关于空域的法律限制以及需要熟练人员解释数据等问题可能会使其实施复杂化。然而，无人机技术和图像处理软件的进步正在不断提高这一制图技术的可及性和准确性。总之，航空摄影制图是一种强大的工具，已经改变了我们收集和分析地理数据的方式。它的应用跨越多个领域，从环境科学到城市规划和灾害管理。随着技术的不断发展，航空摄影制图的使用可能会变得更加普遍，为全球更明智的决策和可持续实践铺平道路。