GENERATION OF HIGH-RESOLUTION DIGITAL SURFACE MODELS FOR URBAN FLOOD MODELLING USING UAV IMAGERY

Environmental Impact IV Pub Date : 2018-06-20 DOI:10.2495/EID180321

Emrah Yalcin

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引用次数: 5

Abstract

This study focuses on the generation of a high resolution digital surface model (DSM) using unmanned aerial vehicle (UAV)-based aerial photography to be utilized in the two-dimensional (2D) hydrodynamic model analyses to investigate the effects of possible flood events in the city centre of Kirsehir, Turkey. One of the most important sources of uncertainty in hydrodynamic models is the resolution of used DSM. Changing DSM resolution can cause serious differences in the simulation results about flood extents, water depths, and flow velocities. Therefore, in complex urban areas, high resolution topographic data is a prerequisite to more accurately simulate the movement of water and thereby to take adequate measures for reducing the most likely flood effects. The use of UAV technologies in the production of topographic data is an appropriate solution for situations when airborne light detection and ranging (LiDAR) or satellite-based remote sensing techniques cannot be implemented due to cost, schedule, and resolution issues. Moreover, terrestrial solutions are much more time-consuming and difficult to apply than UAV-based aerial photography in a complex urban area with intensive vehicle and pedestrian traffic. In this study, the topographic data is obtained by using 2212 geo-referenced images taken on 25 different flight routes over an area of 3.24 km2 using a DJI Matrice 600 UAV-drone equipped with a Zenmuse X5 camera with 15 mm DJI lens. The ground sampling distance of the produced digital surface model is 4.32 cm/pixel, and the localization accuracy, root mean square error (RMSE), of the model is 5.1 cm and 12.7 cm for the horizontal and vertical planes, respectively. The results show that high-resolution digital surface models, which can be used as inputs in 2D flood models for preparing flood hazard and flood risk maps, can be produced with relatively low cost and within a short time using UAV imagery.

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利用无人机图像为城市洪水建模生成高分辨率数字地表模型

本研究的重点是使用基于无人机(UAV)的航空摄影生成高分辨率数字地面模型(DSM)，用于二维(2D)水动力模型分析，以调查土耳其Kirsehir市中心可能发生的洪水事件的影响。水动力模型中最重要的不确定性来源之一是所用DSM的分辨率。改变DSM分辨率会导致洪水范围、水深和流速的模拟结果存在较大差异。因此，在复杂的城市地区，高分辨率的地形数据是更准确地模拟水的运动，从而采取适当的措施来减少最可能的洪水影响的先决条件。当机载光探测和测距(LiDAR)或基于卫星的遥感技术由于成本、进度和分辨率问题而不能实现时，在地形数据生产中使用无人机技术是一种适当的解决方案。此外，在车辆和行人密集的复杂城市地区，地面解决方案比基于无人机的航空摄影更耗时，更难以应用。在这项研究中，地形数据是通过使用2212张地理参考图像获得的，这些图像是在3.24平方公里的区域内，在25条不同的飞行路线上拍摄的，使用的是一架DJI matrix 600无人机，配备了带有15毫米DJI镜头的Zenmuse X5相机。生成的数字曲面模型的地面采样距离为4.32 cm/pixel，模型的定位精度、均方根误差(RMSE)在水平面和垂直平面上分别为5.1 cm和12.7 cm。结果表明，利用无人机图像可以在较短时间内以相对较低的成本生成高分辨率数字地表模型，该模型可作为二维洪水模型的输入，用于编制洪水灾害和洪水风险图。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Environmental Impact IV

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