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Comparing LiDAR and SfM digital surface models for three land cover types

Jianghua Liao, Jinxing Zhou, Wentao Yang

2021Open Geosciences36 citationsDOIOpen Access PDF

Abstract

Abstract Airborne light detection and ranging (LiDAR) and unmanned aerial vehicle structure from motion (UAV-SfM) are two major methods used to produce digital surface models (DSMs) for geomorphological studies. Previous studies have used both types of DSM datasets interchangeably and ignored their differences, whereas others have attempted to locally compare these differences. However, few studies have quantified these differences for different land cover types. Therefore, we simultaneously compared the two DSMs using airborne LiDAR and UAV-SfM for three land cover types (i.e. forest, wasteland, and bare land) in northeast China. Our results showed that the differences between the DSMs were the greatest for forest areas. Further, the average elevation of the UAV-SfM DSM was 0.4 m lower than that of the LiDAR DSM, with a 95th percentile difference of 3.62 m for the forest areas. Additionally, the average elevations of the SfM DSM for wasteland and bare land were 0.16 and 0.43 m lower, respectively, than those of the airborne LiDAR DSM; the 95th percentile differences were 0.67 and 0.64 m, respectively. The differences between the two DSMs were generally minor over areas with sparse vegetation and more significant for areas covered by tall dense trees. The findings of this research can guide the joint use of different types of DSMs in certain applications, such as land management and soil erosion studies. A comparison of the DSM types in complex terrains should be explored in the future.

Topics & Concepts

LidarDigital elevation modelDigital surfaceTerrainRemote sensingLand coverEnvironmental scienceElevation (ballistics)PercentileStructure from motionVegetation (pathology)Land usePhysical geographyGeologyCartographyGeographyComputer scienceMotion (physics)MathematicsStatisticsArtificial intelligenceEcologyPathologyBiologyGeometryMedicineRemote Sensing and LiDAR Applications3D Surveying and Cultural HeritageSoil erosion and sediment transport
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