The vertical accuracy of digital terrain models derived from the close-range photogrammetry point cloud using different methods of interpolation and resolutions

Affek, A., Zachwatowicz, M., Sosnowska, A., Gerlée, A., Kiszka, K., 2017: Impacts of modern mechanised skidding on the natural and cultural heritage of the Polish Carpathian Mountains. Forest Ecology and Management, 405:391–403.10.1016/j.foreco.2017.09.047Search in Google Scholar

Agisoft LLC, 2016: Agisoft Photoscan 1.2.4. build 2336. St. Petersburg. Russia: Agisoft LLC 11 Degtyarniy pereulok.Search in Google Scholar

Akar, A., 2017: Evaluation of vertical accuracy of DEMs obtained from UAV-point cloud for different topo-graphical areas. International Journal of Engineering and Geosciences, 2:110–117.10.26833/ijeg.329717Search in Google Scholar

Alganci, U., Besol, B., Sertel, E., 2018: Vertical accuracy Assessment of Different Digital Surface Models. ISPRS International Journal of Geo-Information, 7, 114 p.10.3390/ijgi7030114Search in Google Scholar

Arun, V. P., 2013: A comparative analysis of different DEM interpolation methods. The Egyptian Journal of Remote Sensing and Space Sciences, 16:133–139.10.1016/j.ejrs.2013.09.001Search in Google Scholar

Bassett, I. E., Simcock, R. C., Mitchell, N. D., 2005: Consequences of soil compaction for seedling establishment: implications for natural regeneration and restoration. Austral Ecology, 30:827–833.10.1111/j.1442-9993.2005.01525.xSearch in Google Scholar

Cambi, M., Hoshika, Y., Mariotti, B., Paoletti, E., Picchio, R., Rachele, R. et al., 2016: Compaction by a forest machine affects soil quality and Quercus robur L. seedling performance in an experimental field. Forest Ecology and Management, 384:406–414.10.1016/j.foreco.2016.10.045Search in Google Scholar

Christopher, E. A., Visser, R., 2007: Methodology for evaluating post-harvest erosion risk for the protection of water quality. New Zealand Journal of Forestry, 52:20–25.Search in Google Scholar

Chudý, F., Slámová, M., Tomaštík, J., Prokešová, R., Mokroš, M., 2019: Identification of Micro-Scale Landforms of Landslides Using Precise Digital Elevation Models. Geosciences, 9:117.10.3390/geosciences9030117Search in Google Scholar

Eltner, A., Mulsow, C., Maas, H. G., 2013: Quantitative measurement of soil erosion from TLS and UAV data. In: International Archives of the Photogrammetry, UAV-g2013, 4 – 6 September 2013, Rostock, Germany. Remote Sensing and Spatial Information Sciences, XL–1/W2:119–124.10.5194/isprsarchives-XL-1-W2-119-2013Search in Google Scholar

ESRI, 2013: ArcGIS Desktop, Release 10.2. Redlands, CA: Environmental Systems Research Institute.Search in Google Scholar

Gašparović, M., Seletković, A., Berta, A., Balenović, I., 2017: The Evaluation of Photogrammetry-Based DSM from Low-Cost UAV by LiDAR-Based DSM. South-east European Forestry, 8:117–125.10.15177/seefor.17-16Search in Google Scholar

Gebauer, R., Neruda, J., Ulrich, R., Martinková, M., 2012: Soil compaction – impact of harvesters’ and forwarders’ passages on plant growth, sustainable forest management - Current Research, (Diez J, ed), InTech, 10, p. 179-196. ISBN 978-953-51-0621-0.Search in Google Scholar

Gessesse, D. G., Fuchs, H., Mansberger, R., Klik, A., Rieke-Zapp, H. D., 2010. Assessment of Erosion, Deposition and Rill Development On Irregular Soil Surfaces Using Close Range Digital Photogrammetry. The Photogrammetric Record, 25:299–318.10.1111/j.1477-9730.2010.00588.xSearch in Google Scholar

Goetz, J., Brenning, A., Marcer, M., Bodin, X., 2018: Modeling the precision of structure-from-motion multi-view stereo digital elevation models from repeated close-range aerial surveys. Remote Sensing of Environment, 210:208–215.10.1016/j.rse.2018.03.013Search in Google Scholar

Haas, J., Ellhöft, H. K., Schack-Kirchner, H., Lang, F., 2016: Using photogrammetry to assess rutting caused by a forwarder – A comparison of different tires and bogie tracks. In Soil & Tillage Research, 163:14–20.10.1016/j.still.2016.04.008Search in Google Scholar

Heninger, R., Scott, W., Dobkowski, A., Miller, R. Anderson, H., Duke, S., 2002: Soil disturbance and 10-year growth response of coast Douglas-fir on nontilled and tilled skid trails in the Oregon Cascades. Canadian Journal of Forest Research, 32:233–246.10.1139/x01-195Search in Google Scholar

Hrůza, P., Mikita, T., Tyagur, N., Krejza, Z., Cibulka, M., Procházková, A. et al., 2018: Detecting Forest Road Wearing Course Damage Using Different Methods of Remote Sensing. Remote Sensing, 10:492.10.3390/rs10040492Search in Google Scholar

Isenburg, M., 2016: LAStools – efficient LiDAR processing software, version 160429 (unlicensed), obtained from http://rapidlasso.com/LAStools.Search in Google Scholar

Jakobsen, B. F., Greacen, E. L., 1985: Compaction of sandy forest soils by forwarder operations. Soil and Tillage Research, 5:55–70.10.1016/S0167-1987(85)80016-7Search in Google Scholar

Liu, C. W., Huang, C. W., 2016: Close range digital photogrammetry applied to topography and landslide measurements. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XLI-B5, 2016, XXIII ISPRS Congress, 12–19 July 2016, Prague, Czech Republic.10.5194/isprsarchives-XLI-B5-875-2016Search in Google Scholar

Mandlburger, G., Otepka, J., Karel, W., Wagner, W., Pfeifer, N., 2009: Orientation and Processing Of Airborne Laser Scanning Data (OPALS) - Concept and first results of a comprehensive ALS software. In: Bretar F., Pierrot-Deseiligny M., Vosselman G. (eds.): The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XXXVIII, Part 3/W8. Paris, Sept 1–2, 2009, p. 55–60.Search in Google Scholar

Modrý, M., Hubený, D., 2003: Impact of skidder and high-lead system logging on forest soils and advanced regeneration. Journal of Forest Science, 49:273–280.10.17221/4701-JFSSearch in Google Scholar

Mölg, N., Bolch, T., 2017: Structure-from-Motion Using Historical Aerial Images to Analyse Changes in Glacier Surface Elevation. Remote Sensing, 9:1021.10.3390/rs9101021Search in Google Scholar

Niederheiser, R., Mokroš, M., Lange, J., Petschko, H., Prasicek, G. Elberink, O. S., 2016: Deriving 3D point clouds from terestrial photographs – Comparison of different sensors and software. In: The International Archives of the Photogrammetry, XXIII ISPRS Congress, 12–19 July 2016, Prague, Czech Republic. Remote Sensing and Spatial Information Sciences, 41: 685–692.10.5194/isprsarchives-XLI-B5-685-2016Search in Google Scholar

Otepka, J., Mandlburger, G., Karel, W., 2012: The OPALS Data Manager – Efficient Data Management for Processing Large Airborne Laser Scanning Projects. ISPRS Annals, Comm. III, 1–3:153–159.10.5194/isprsannals-I-3-153-2012Search in Google Scholar

Pfeifer, N., Mandlburger, G., Otepka, J., Karel, W., 2014: OPALS – A framework for Airborne Laser Scanning data analysis. Computers, Environment and Urban Systems, 45:125–136.10.1016/j.compenvurbsys.2013.11.002Search in Google Scholar

Pierzchała, M., Talbot, B., Astrup, R., 2016: Measuring wheel ruts with close-range photogrammetry. Forestry: An International Journal of Forest Research, 89:383–391.10.1093/forestry/cpw009Search in Google Scholar

Reutebuch, E. S., McGaughey, J. R., Andersen,H. E., Carson,W. W., 2003: Accuracy of a high-resolution lidar terrain model under a conifer forest canopy, Canadian Journal of Remote Sensing, 29:527–535.10.5589/m03-022Search in Google Scholar

Rieke-Zapp, D. H., Nearing, M. A., 2005: Digital close range photogrammetry for measurement of soil erosion. The Photogrammetric Record, 20:69–87.10.1111/j.1477-9730.2005.00305.xSearch in Google Scholar

Robinson, T. P., Metternicht, G., 2006: Testing the performance of spatial interpolation techniques for mapping soil properties. Computers and Electronics in Agriculture, 50:97–108.10.1016/j.compag.2005.07.003Search in Google Scholar

Sačkov, I., Kardoš, M., 2014: Forest delineation based on LiDAR data and vertical accuracy of the terrain model in forest and non-forest area. Annals of Forest Research, 57:119–136.10.15287/afr.2014.169Search in Google Scholar

Schäffer, J., Buberl, H., Von Wilpert, K., 2012: Deformation damages in forest topsoils-An assessment based on Level-I soil monitoring data from Baden-Württemberg (SW Germany). Journal of Plant Nutrition and Soil Science, 175:24–33.10.1002/jpln.201000403Search in Google Scholar

Tomaštík, J., Mokroš, M., Surový, P., Grznárová, A., Merganič, J., 2019: UAV RTK/PPK Method-An Optimal Solution for Mapping Inaccessible Forested Areas? Remote Sensing, 11:721.10.3390/rs11060721Search in Google Scholar

Westoby, M. J., Brasington, J., Glasser, N. F., Hambrey, M. J., Reynolds, J. M., 2012: ’Structure-from-Motion’ photogrammetry: A low-cost, effective tool for geoscience applications. Geomorphology, 179:300–314.10.1016/j.geomorph.2012.08.021Search in Google Scholar