无人机三维测绘与变化检测分析

Q3 Social Sciences

Geomatics and Environmental Engineering Pub Date : 2021-01-01 DOI:10.7494/geom.2021.15.1.41

Adetola Olufunmilayo Gbopa, E. Ayodele, C. Okolie, A. O. Ajayi, Chima J. Iheaturu

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引用次数: 3

摘要

无人驾驶飞行器(uav)，通常被称为无人机，越来越多地被用于环境的三维(3D)测绘。这项研究利用无人机技术制作了拉各斯大学的修订3D地图以及土地覆盖变化检测分析。一架大疆幻影4无人机(DJI Phantom 4 UAV)用于收集飞行高度为90米、75%正面和65%侧面重叠的数字图像。正射影像校正的地面控制点(gcp)与Trimble R8全球导航卫星系统协调。使用Pix4D Mapper在4.36 cm的地面采样距离上生成数字地形模型和正射影像。以2015年的底图为参考，变化检测分析显示，2015年至2019年期间，土地覆盖发生了显著变化，建筑面积增加了16306.7平方米。使用7种gcp进行均方根误差分析，水平和垂直精度分别为0.183 m和0.157 m。这表明了高水平的准确性，足以在可持续的成本下进行3D映射和变化检测分析。

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Unmanned Aerial Vehicles for Three‑dimensional Mapping and Change Detection Analysis

Unmanned Aerial Vehicles (UAVs), commonly known as drones are increas‐ ingly being used for three ‐dimensional (3D) mapping of the environment. This study utilised UAV technology to produce a revised 3D map of the University of Lagos as well as land cover change detection analysis. A DJI Phantom 4 UAV was used to collect digital images at a flying height of 90 m, and 75% fore and 65% side overlaps. Ground control points (GCPs) for orthophoto rectifica‐ tion were coordinated with a Trimble R8 Global Navigation Satellite System. Pix4D Mapper was used to produce a digital terrain model and an orthophoto at a ground sampling distance of 4.36 cm. The change detection analysis, using the 2015 base map as reference, revealed a significant change in the land cover such as an increase of 16,306.7 m2 in buildings between 2015 and 2019. The root mean square error analysis performed using 7 GCPs showed a horizontal and vertical accuracy of 0.183 m and 0.157 m respectively. This suggests a high level of accuracy, which is adequate for 3D mapping and change detection analysis at a sustainable cost.

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来源期刊

Geomatics and Environmental Engineering Earth and Planetary Sciences-Computers in Earth Sciences

CiteScore

2.30

自引率

0.00%

发文量