星载激光遥感林业应用发展研究 下载: 702次
岳春宇, 郑永超, 邢艳秋, 庞勇, 李世明, 蔡龙涛, 何红艳. 星载激光遥感林业应用发展研究[J]. 红外与激光工程, 2020, 49(11): 20200235.
Chunyu Yue, Yongchao Zheng, Yanqiu Xing, Yong Pang, Shiming Li, Longtao Cai, Hongyan He. Technical and application development study of space-borne LiDAR in forestry remote sensing[J]. Infrared and Laser Engineering, 2020, 49(11): 20200235.
[5] Xie D, Li G, Zhao Y. U. S. GEDl space-based laser altimetry system and its application[J]. Space International, 2018, 480(12): 41-46.
[6] Singh U N, Sugimoto N, Jayaraman A, et al. Lidar remote sensing f envirmonitingXVOverview status of vegetation lidar mission MOLI[C]Lidar Remote Sensing fEnvironmental Moniting XV. Lidar Remote Sensing f Environmental Moniting XV, 2016: 987908.
[7] Abshire J B, Smith J C, Schutz B E. The geoscience laser altimeter system (GLAS)[C]AIP Conference Proceedings. AIP, 1998, 420(1): 3337.
[9] Lefsky M A, Harding D J, Keller M. Estimates of forest canopy height and aboveground biomass using ICESat[J]. Geophysical Research Letters, 2005, 32(22): L22S02.
[10] Pang Y. Fest parameters inversion using spacebne InSAR Lidar technology[D]. Beijing: Institute of Remote Sensing Applications, Chinese Academy of Sciences, 2005.(in Chinese)
[12] Chi H, Huang J, Qiu J. Estimation of forest above ground biomass using ICESat/GLAS data and Landsat/ETM+imagery[J]. Science of Surveying and Mapping, 2018, 43: 9-16.
[13] Hieu D, Nbert P, Roderik L. Full wavefm analysis: ICESat laser data f l cover classification[C]Proceedings of the ISRRS term Symposium, Remote Sensing: From Pixels to Processes, 2006: 811.
[15] Zhang J, De Gier A, Xing Y. Full waveform-based analysis for forest type information derivation from large footprint spaceborne lidar data[J]. Photogrammetric Engineering & Remote Sensing, 2011, 77(3): 281-290.
[16] Wang R, Xing Y, You H. Forest basal area estimation based on spaceborne LiDAR waveform Data[J]. Journal of Northwest Forestry University, 2014, 29(5): 156-162.
[17] Harding D J, Carabajal C C. ICESat waveform measurements of within-footprint topographic relief and vegetation vertical structure[J]. Geophysical Research Letters, 2005, 32(21): 741-746.
[18] Neuenschwander A L, Urban T J, Gutierrez R. Characterization of ICESat/GLAS waveforms over terrestrial ecosystems: Implications for vegetation mapping[J]. Journal of Geophysical Research, 2008, 113: G02S03.
[19] Luo S, Wang C, Xi X. Forest leaf area index estimationusing combined ICESat/GLAS and optical remote sensing image[J]. J Infrared Millim Waves, 2015, 34(2): 243-249.
[20] Stysley Paul R, Barry Coyle D, Kay Richard B. Long term performance of the high output maximum efficiency resonator (HOMER) laser for NASA’s global ecosystem dynamics investigation (GEDI) lidar[J]. Optics & Laser Technology, 2015, 68: 67-72.
[23] Zhang J, Kerekes J. An adaptive density-based model for extracting surface returns from photon-counting laser altimeter data[J]. IEEE Geoscience and Remote Sensing Letters, 2014, 12(4): 726-730.
[24] Nie S. Study on the estimation method of fest canopy parameters using LiDAR data[D]. Beijing: University of Chinese Academy of Science(Institute of Remote Sensing Digital Earth), 2017.(in Chinese)
岳春宇, 郑永超, 邢艳秋, 庞勇, 李世明, 蔡龙涛, 何红艳. 星载激光遥感林业应用发展研究[J]. 红外与激光工程, 2020, 49(11): 20200235. Chunyu Yue, Yongchao Zheng, Yanqiu Xing, Yong Pang, Shiming Li, Longtao Cai, Hongyan He. Technical and application development study of space-borne LiDAR in forestry remote sensing[J]. Infrared and Laser Engineering, 2020, 49(11): 20200235.