Details
Title
The two-stage filtering of airborne laser data in a frequency domainJournal title
Geodesy and CartographyYearbook
2010Volume
vol. 59Issue
No 2Authors
Keywords
laser scanning ; terrain surface ; algorithms ; automation ; filtering ; FFTDivisions of PAS
Nauki TechnicznePublisher
Commitee on Geodesy PASDate
2010Type
Artykuły / ArticlesIdentifier
DOI: 10.2478/v10277-012-0003-z ; ISSN 2080-6736Source
Geodesy and Cartography; 2010; vol. 59; No 2References
Axelsson P. (2000), DEM generation from laser scanner data using adaptive TIN models, International Archives of Photogrammetry and Remote Sensing, 33, 4B, 110. ; Borkowski A. (2005), Airborne laser scanning data filtering using active surface method (in Polish), Roczniki Geomatyki, 3, 4, 35. ; A Borkowski (2007), Correctness evaluation of the flakes based filtering method of airborne laser scanning data (in Polish), Archiwum Fotogrametrii, Kartografii i Teledetekcji, 17a, 83. ; Borkowski A. (2006), An Attempt to ALS-data filtering in wavelet domain, null. ; Chen Q. (2007), Filtering Airborne Laser Scanning Data with Morphological Methods, Photogrammetric Engineering & Remote Sensing, 73, 2, 175. ; David M. (1977), Geostatistical ore reserve estimation, 102. ; Elmqvist M. (2002), Ground surface estimation from airborne laser scanner data using active contour models, null, 114. ; Kokesz Z., (1984): <i>Geostatistical characterization of sulphur deposits for the purpose of identifying and estimating resources</i> (in Polish), PhD Thesis, AGH University of Science and Technology, Krakow, Poland. ; Marmol U. (2002), A frequency analysis as a filtering method of topographical profiles (in Polish), Archiwum Fotogrametrii, Kartografii i Teledetekcji 12a, 257. ; Marmol U. (2004), A FFT based method of filtering airborne laser scanner data, International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 35, 3B, 1147. ; Petzold B. (2000), Results of the OEEPE WG on laser data acquisition, International Archives of Photogrammetry and Remote Sensing, 33, 3B, 718. ; Pfeifer N. (2001), Derivation of digital terrain models in SCOP++ environment, null, 13. ; Sithole G. (2004), Experimental comparison of filter algorithms for bare-Earth extraction from airborne laser scanning point clouds, ISPRS Journal of Photogrammetry and Remote Sensing, 59, 85, doi.org/10.1016/j.isprsjprs.2004.05.004 ; Wei H. (2006), Unsupervised segmentation using Gabor Wavelets and statistical features in LIDAR data analysis, null. ; Vosselman G. (2000), Slope based filtering of laser altimetry data, International Archives of Photogrammetry and Remote Sensing, 33, 3B, 935. ; Vosselman G., (2003): <i>ISPRS test on extracting DEMs from point clouds "A comparison of existing automatic filters"</i>, Delft. <a target="_blank" href='http://www.itc.nl/isprswgIII-3/filtertest'>http://www.itc.nl/isprswgIII-3/filtertest</a>Aims and scope
The Advances in Geodesy and Geoinformation (formerly “Geodesy and Cartography”) is an open access international journal (semiannual) concerned with the study of scientific problems in the field of geodesy, geoinformation and their related interdisciplinary sciences. The journal has a rigorous peer–review process to ensure the best research publications. It is publishing peer–reviewed original articles on theoretical or modelling studies, and on results of experiments associated with geodesy and geodynamics, geoinformation, cartography and GIS, cadastre and land management, photogrammetry, remote sensing and related disciplines. Besides original research articles, the Advances in Geodesy and Geoinformation also accepts review articles on topical subjects, short notes/letters and communication of a great importance to the readers, and special issues arising from the national/international conferences as well as collection of articles that concentrates on a hot topical research area that falls within the scope of the journal.Content of Advances in Geodesy and Geoinformation is archived with a long-term preservation service by the National Library of Poland.