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THE ROLE OF STRUCTURAL LINES EXTRACTION FROM HIGH-RESOLUTION DIGITAL TERRAIN MODELS IN THE PROCESS OF HEIGHT DATA REDUCTION
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References18
Ai T. & Li J. A DEM generalization by minor valley branch detection and grid filling. ISPRS Journal of Photogrammetry and Remote Sensing, 65, pp. 198-207, 2010;
Bakuła, K . Reduction of DTM obtained from LiDAR data for flood modeling, Archives of Photogrtammetry, Cartography and Remote Sensing, vol. 22, pp. 51-61, 2011;
Briese, Ch. Three-dimensional Modelling of Breaklines from Airborne Laser Scanner Data. ISPRS Congress, Commission III, WG III/3, Istanbul, 2004;
Chen Z. T. & Guevara J. A.,. Systematic selection of very important point (VIP) from digital terrain model for constructing triangular irregular networks. Proceedings of International Symposium on Computer-Assisted Cartography (AUTO-CARTO 8), Baltimore, U.S.A., pp. 50-56, 1987;
Kiss R. Determination of drainage network in digital elevation models, utilities and limitations. Journal of Hungarian Geomathematics, vol 2, p. 16-29, 2004;
Mandlburger, G., Hauer, C., Höfle, B., Habersack, H. & Pfeifer, N. Optimisation of LiDAR derived terrain models for river flow modelling, Hydrology and Earth System Sciences, vol. 5, pp. 3605-3638, 2008;
O'Callaghan, J. F. & Mark D.M., The extraction of drainage networks from digital elevation data: Computer Vision, Graphics, and Image Processing, vol. 28, p. 328-344, 1984;
Zakšek K. & Podobnikar T. An Effective DEM generalization with basic GIS operations. 8th ICA workshop on Generalisation and Multiple Representation, Coruńa, Spain, 2005;
Zhou Q., Chen Y., Generalization of DEM for terrain analysis using a compound method, ISPRS Journal of Photogrammetry and Remote Sensing, 66, pp.38-45, 2011.
Ai T. & Li J. A DEM generalization by minor valley branch detection and grid filling. ISPRS Journal of Photogrammetry and Remote Sensing, 65, pp. 198-207, 2010;
Bakuła, K . Reduction of DTM obtained from LiDAR data for flood modeling, Archives of Photogrtammetry, Cartography and Remote Sensing, vol. 22, pp. 51-61, 2011;
Briese, Ch. Three-dimensional Modelling of Breaklines from Airborne Laser Scanner Data. ISPRS Congress, Commission III, WG III/3, Istanbul, 2004;
Chen Z. T. & Guevara J. A.,. Systematic selection of very important point (VIP) from digital terrain model for constructing triangular irregular networks. Proceedings of International Symposium on Computer-Assisted Cartography (AUTO-CARTO 8), Baltimore, U.S.A., pp. 50-56, 1987;
Kiss R. Determination of drainage network in digital elevation models, utilities and limitations. Journal of Hungarian Geomathematics, vol 2, p. 16-29, 2004;
Mandlburger, G., Hauer, C., Höfle, B., Habersack, H. & Pfeifer, N. Optimisation of LiDAR derived terrain models for river flow modelling, Hydrology and Earth System Sciences, vol. 5, pp. 3605-3638, 2008;
O'Callaghan, J. F. & Mark D.M., The extraction of drainage networks from digital elevation data: Computer Vision, Graphics, and Image Processing, vol. 28, p. 328-344, 1984;
Zakšek K. & Podobnikar T. An Effective DEM generalization with basic GIS operations. 8th ICA workshop on Generalisation and Multiple Representation, Coruńa, Spain, 2005;
Zhou Q., Chen Y., Generalization of DEM for terrain analysis using a compound method, ISPRS Journal of Photogrammetry and Remote Sensing, 66, pp.38-45, 2011.
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