References
- LiZ, ZhuQ,GoldC. Digital Terrain modeling, principles and methodology. Boca Raton (FL): CRC Press; 2005.
- MauneD. Digital elevation model technologies and applications: the DEM users manual. 2nd ed.Bethesda (MD): ASPRS (American Society for Photogrammetry and Remote Sensing); 2007.
- KilianJ, HaalaN, EnglichM. Capture and evaluation of airborne laser scanner data. Inter. Arch. Photogramm. 1996;31:383–388.
- VosselmanG. Slope based filtering of laser altimetry data. Inter. Arch. Photogramm. 2000;33:935–942.
- ZhangK, ChenS, WhitmanD, ShyuM, YanJ, ZhangC. A progressive morphological filter for removing nonground measurements from airborne LiDAR data. IEEE T. Geosci. Remote. 2003;41:972–882.
- BartelsM, WeiH, MasonD. DTM generation from LiDAR data using Skewness Balancing. 18th International Conference on, Pattern Recognition; 2006. p. 566–569.
- BaoY, LiG, CaoC, et al. Classification of LiDAR point cloud and generation of DTM from LiDAR height and intensity data in forested area. Inter. Arch. Photogramm. 2008;37:313–318.
- BretarF, ChehataN. Terrain modeling from LiDAR range data in natural landscapes: a predictive and Bayesian framework. IEEE T. Geosci. Remote. 2010;48:1568–1578.
- HöhleJ, HöhleM. Accuracy assessment of digital elevation models by means of robust statistical methods. ISPRS J. Photogramm. 2009;64:398–406.
- KrausK, PfeiferN. Determination of terrain models in wooded areas with airborne laser scanner data. ISPRS J. Photogramm. 1998;53:193–203.
- ElmqvistM, JungertE, LantzF, et al. Terrain modeling and analysis using laser scanner data. Int. Arch. Photogramm. 2001;34:22–24.
- ShanJ, SampathA. Urban DEM generation from raw LiDAR data: a labeling algorithm and its performance. Photogramm. Eng. Rem. S. 2005;71:217–226.
- AxelssonP. DEM generation from laser scanner data using adaptive TIN models. Inter. Arch. Photogrammetry. 2000;33:110–117.
- AxelssonP. Ground estimation of laser data using adaptive TIN-models. Proceeding of OEEPE workshop on airborne laser scanning and interferometric SAR for detailed digital elevation models. 2001;40:185–208.
- BelkhoucheM, BucklesB. Iterative TIN-based automatic filtering of sparse LiDAR data. Remote Sens. Letters. 2011;2:231–240.
- KoblerA, PfeiferN, OgrincP, TodorovskiL, OstirK, DzeroskiS. Repetitive interpolation: a robust algorithm for DTM generation from aerial laser scanner data in forested terrain. Remote Sensing & Environment. 2007;108:9–23.
- HouW, ChanT, DingM. Denoising point cloud. Inverse Probl. Sci. Eng. 2012;20:287–298.
- SotoodehS. Hierarchical clustered outlier detection in laser scanner point clouds. IAPRS. 2007;XXXVI(Part 3 / W52): 383–387.
- ToltG, PerssonA, LandgardJ, SodermanU. Segmentation and classification of airborne laser scanner data for ground and building detection. P. Soc Photo-opt. Inst. 2006;6214: C2140–C2140.
- SitholeG, VosselmanG. Filtering of airborne laser scanner data based on segmented point clouds. Inter. Arch. Photogramm. Remote Sens. Spatial Inform. Sci. 2005;36(Part 3/W19):66–71.