[1]Elberink S O,Mass H G.The Use of Anisotropic Height Texture Measures for the Segmentation of Airborne Laser Scanner Data[J].International Archives of Photogrammetry and Remote sensing,Amsterdam,Netherlands,2000,33(3B):678-684.
[2]Vu T T,Tokunaga M.Wavelet and Scal\|space Theory in Segmentation of Airborne Laser Scanner Data[C]//The 22nd Asian Conference on Remote Sensing,Singapore,2001,1:176-180.
[3]Axelsson P.Processing of Laser Scanner Data\|algorithms and Applications[J].International Society for Photogrammetry and Remote Sensing Journal of Photogrammetry and Remote Sensing,1999,54(2-3):138-147.
[4]Liu Jingnan,Zhang Xiaohong.Classification of Laser Scanning Altimetry Data Using Laser Intensity[J].Wuhan University Journal,2005,30(3):189\|193.[刘经南,张小红.利用激光强度信息分类激光扫描测高数据[J].武汉大学学报,2005,30(3):189-193.]
[5]Huber M,Schickler W,Hinz S.Fusion of LiDAR Data and Aerial Imagery for Automatic Reconstruction of Building Surfaces[C]//Remote Sensing and Data Fusion over Urban Areas,2003.2nd GRSS/ISPRS Joint Workshop on,2003,(22-23):82-86.
[6]Rottensteiner F,Jansa J.Automatic Extraction of Buildings fr\|om LiDAR Data and Aerial Images[C]//Proceedings of the ISPRS Commission IV Symposium in Ottawa (CAN),International Archives of Photogrammetry and Remote Sensing,2002,34(4):569-574.
[7]GeoLas Consulting.Geocode WF:Calibrated Waveform File F\|ormat Description[S].Reichersbeuern,Germany,2009:4.
[8]Zhou Mengwei,Liu Qinhuo,Liu Qiang,et al.Inversion for Crop Height by Small\|footprint\|waveform Airborne LiDAR[J].Transactions of the Chinese Society of Agricultural Engineering,2010,26(8):183-188.[周梦维,柳钦火,刘强,等.基于机载小光斑全波形LiDAR 的作物高度反演[J].农业工程学报,2010,26(8):183-188.]
[9]Mei Anxin,Peng Wanglu,Qin Qiming,et al.Introduction to Remote Sensing[M].Beijing:Chinese High Education Press,2001:112-116.[梅安新,彭望禄,秦其明,等.遥感导论[M].北京:高等教育出版社,2001:112-116.] |