Consumer-grade UAV solid-state LiDAR accurately quantifies topography in a vegetated fluvial environment

MacDonell, C. , Williams, R. , Maniatis, G., Roberts, K. and Naylor, M. (2023) Consumer-grade UAV solid-state LiDAR accurately quantifies topography in a vegetated fluvial environment. [Data Collection]

Original publication URL: https://doi.org/10.1002/esp.5608

Collection description

To accompany a journal article in Earth Surface Processes & Landforms (ESPL) which details an investigation into the data quality and limitations of using the DJI L1 solid-state LiDAR system at both a controlled test location (Garscube Sports Fields, Glasgow, Scotland) and also in a geomorphic environment (River Feshie, Highlands, Scotland).
Included are the following datasets (further detailed in readme file):
• Point Clouds
o Garscube – 4 x raw, unthinned
o Feshie – 6 x thinned to 15cm density
o Terrestrial Laser Scanning – 7 x gravel comparison patches
• Digital Elevation Model
o River Feshie only (see Figure 10 of article)
• GNSS points
o Garscube – GCPs & Football pitch markings
o Feshie – GCPs, check points and vegetation

Funding:
College / School: College of Science and Engineering > School of Geographical and Earth Sciences
Date Deposited: 04 May 2023 10:52
URI: https://researchdata.gla.ac.uk/id/eprint/1433

Available Files

Data

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MacDonell, C. , Williams, R. , Maniatis, G., Roberts, K. and Naylor, M. (2023); Consumer-grade UAV solid-state LiDAR accurately quantifies topography in a vegetated fluvial environment

University of Glasgow

DOI: 10.5525/gla.researchdata.1433

Retrieved: 2024-10-11

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