Please use this identifier to cite or link to this item: http://ktisis.cut.ac.cy/handle/10488/11858
Title: Vegetation removal from UAV derived DSMS, using combination of RGB and NIR imagery
Authors: Skarlatos, Dimitrios 
Vlachos, Marinos 
Keywords: DSM;DTM;Near infrared;Vegetation removal
Category: Civil Engineering;Civil Engineering
Field: Engineering and Technology
Issue Date: 28-May-2018
Source: ISPRS TC II Mid-term Symposium "Towards Photogrammetry 2020", 2018, Riva del Garda, Italy, 4–7 June
metadata.dc.doi: https://doi.org/10.5194/isprs-annals-IV-2-255-2018
Abstract: Current advancements on photogrammetric software along with affordability and wide spreading of Unmanned Aerial Vehicles (UAV), allow for rapid, timely and accurate 3D modelling and mapping of small to medium sized areas. Although the importance and applications of large format aerial overlaps cameras and photographs in Digital Surface Model (DSM) production and LIDAR data is well documented in literature, this is not the case for UAV photography. Additionally, the main disadvantage of photogrammetry is the inability to map the dead ground (terrain), when we deal with areas that include vegetation. This paper assesses the use of near-infrared imagery captured by small UAV platforms to automatically remove vegetation from Digital Surface Models (DSMs) and obtain a Digital Terrain Model (DTM). Two areas were tested, based on the availability of ground reference points, both under trees and among vegetation, as well as on terrain. In addition, RGB and near-infrared UAV photography was captured and processed using Structure from Motion (SfM) and Multi View Stereo (MVS) algorithms to generate DSMs and corresponding colour and NIR orthoimages with 0.2 m and 0.25 m as pixel size respectively for the two test sites. Moreover, orthophotos were used to eliminate the vegetation from the DSMs using NDVI index, thresholding and masking. Following that, different interpolation algorithms, according to the test sites, were applied to fill in the gaps and created DTMs. Finally, a statistic analysis was made using reference terrain points captured on field, both on dead ground and under vegetation to evaluate the accuracy of the whole process and assess the overall accuracy of the derived DTMs in contrast with the DSMs.
URI: http://ktisis.cut.ac.cy/handle/10488/11858
Rights: © Authors 2018
Type: Conference Papers
Appears in Collections:Δημοσιεύσεις σε συνέδρια/Conference papers

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