Zastosowanie danych lotniczego skanowania laserowego dla automatyzacji określania pokrycia terenu w aspekcie monitorowania obszarów sukcesji leśnej
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RIS BIB ENDNOTEUsing airborne laser scanning data for automation land cover mapping in the aspect of monitoring forest succession areas
Data publikacji: 14.12.2018
Geoinformatica Polonica, 2018, Vol. 17 (2018), s. 91 - 97
https://doi.org/10.4467/21995923GP.18.008.9638Autorzy
Using airborne laser scanning data for automation land cover mapping in the aspect of monitoring forest succession areas
Bergen K.M., Dronova I. 2007. Observing succession on aspen-dominated landscapes using remote sensing-ecosystem approach. Landscape Ecology. 22, 1395–1410.
Błajda S. 2015. Monitoring of changes in EGiB database concerned forest succession based on orthophotomaps and airborne laser scanning data at the area of Milicz District. Dyploma thesis.
Bowen M.E., Mcalpine C.A., House A.P.N., Smith G.C. 2007. Regrowth forests on abandoned agricultural land: A review of their habitat values for recovering forest fauna. Biological Conservation. 140, 3–4, 273–296.
Ewijk K.Y., Treitz P.M., Scott N.A. 2011. Characterizing forest succession in central Ontario using lidar-derived indices, Photogrammetric Engineering and Remote Sensing, 77 (3), 261–269.
Falkowski M.J., Evans J.S., Martinuzzi S., Gessler P.E., Hudak A.T. 2009. Characterizing forest succession with lidar data: An evaluation for the Inland Northwest, USA, Remote Sensing of Environment, 113 (5), 946–956
Kolecka N., Kozak J., Kaim D., Dobosz M., Ginzler Ch., Psomas A. 2016. Mapping secondary forest succession on abandoned agricultural land in the Polish Carpathians. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences – ISPRS Archives, 41, 931–935.
Kolecka N., Kozak J., Kaim D., Dobosz M., Ginzler C., Psomas A. 2015. Mapping secondary forest succession on abandoned agricultural land with LiDAR point clouds and terrestrial photography, Remote Sensing, 7 (7), 8300–8322.
Lasanta T., Arnáez J, Pascual N., Ruiz-Flaño P., Errea M.P., Lana-Renault N. 2017. Space–time process and drivers of land abandonment in Europe. Catena 149, 810–823
McGaughey R.J. 2012. Fusion/ldv: Software for lidar data analysis and visualization. Software manual. USDA Forest Service. Pacific Northwest Research Station.
Naesset E., Okland T. 2002. Estimating tree height and tree crown properties using airborne scanning laser in a boreal nature reserve. Remote Sensing of Environment, vol. 79, s. 105–115.
Navarro L., Pereira H. 2012. Rewilding abandoned landscapes in Europe, Ecosystems, 15, 900–912
Susyan E.A., Wirth S., Ananyeva N.D, Stolnikova E.V. 2011. Forest succession on abandoned arable soils in European Russia – Impacts on microbial biomass, fungal-bacterial ratio, and basal CO2 respiration activity. European Journal of Soil Biology. 47, 3, 169–174.
Szostak M., Wężyk P., Tompalski P. 2014. Aerial Orthophoto and Airborne Laser Scanning as Monitoring Tools for Land Cover Dynamics: A Case Study from the Milicz Forest District (Poland). Pure and Applied Geophysics, vol. 171 (2014), No. 6, 857–866.
Szostak M., Hawryło P., Piela D. 2018. Using of Sentinel-2 images for automation of the forest succession detection. European Journal of Remote Sensing, 51, 1, 142–149.
Szostak M., Wężyk P., Király G., Hawryło P., Bednarski A. 2018. Automation of forest succession dynamics using airborne laser scanning data. 18th International Multidisciplinary Scientific GeoConference SGEM 2018, www.sgem.org, SGEM2018 Conference Proceedings, 18, 2.3, 41–48.
Śmigielski M., Pijanowski J., Gniadek J. 2017. Forest succession and afforestation of agricultural land as a current challenge agricultural works. Acta Sci. Pol. Formatio Circumiectus 16 (4) 2017, 51–63.
Tompalski P. 2012. The use of 3D spatial indices for urban vegetation analysis based on airborne laser scanning data. Archives of Photogrammetry, Cartography and Remote Sensing, vol. 23, s. 443–456.
Wężyk P., Szostak M., Tompalski P. 2009. Comparison of the accuracy of the ‘‘PHOTO’’ check method with automatic analysis based on ALS data for direct control of subsidy payments. Archives of Photogrammetry, Cartography and Remote Sensing 20, 445–456.
Informacje: Geoinformatica Polonica, 2018, Vol. 17 (2018), s. 91 - 97
Typ artykułu: Oryginalny artykuł naukowy
Tytuły:
Using airborne laser scanning data for automation land cover mapping in the aspect of monitoring forest succession areas
University of Agriculture in Krakow, Faculty of Forestry, Institute of Forest Resources Management, Department of Forest Management, Geomatics and Forest Economics
University of Agriculture in Krakow, Faculty of Forestry, Institute of Forest Resources Management, Department of Forest Management, Geomatics and Forest Economics
Publikacja: 14.12.2018
Status artykułu: Otwarte
Licencja: CC BY-NC-ND
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