森林地上生物量遥感反演方法综述

[11] 森林地上生物量的非参数化遥感估测方法优化[D]. 郭颖.中国林业科学研究院 2011

[12] 无人机航空摄影遥感森林计测方法[P]. 冯仲科,林宗坚,姚山. 中国专利:CN101008676,

[13] Features of point clouds synthesized from multi-view ALOS/PRISM data and comparisons with LiDAR data in forested areas[J] . Wenjian Ni,Kenneth Jon Ranson,Zhiyu Zhang,Guoqing Sun.Remote Sensing of Environment . 2014

[14] Characterizing 3D vegetation structure from space: Mission requirements[J] . Forrest G. Hall,Kathleen Bergen,James B. Blair,Ralph Dubayah,Richard Houghton,George Hurtt,Josef Kellndorfer,Michael Lefsky,Jon Ranson,Sasan Saatchi,H.H. Shugart,Diane Wickland.Remote Sensing of Environment . 2011 (11)

[15] Aboveground biomass retrieval in tropical forests - The potential of combined X- and L-band SAR data use [J]. REMOTE SENSING OF ENVIRONMENT, 2011, 115 (05) : 1260 - 1271

[16] Retrieval of growing stock volume in boreal forest using hyper-temporal series of Envisat ASAR ScanSAR backscatter measurements[J] . Maurizio Santoro,Christian Beer,Oliver Cartus,Christiane Schmullius,Anatoly Shvidenko,Ian McCallum,Urs Wegmüller,Andreas Wiesmann.Remote Sensing of Environment . 2010 (2)

[17] Estimating spruce and pine biomass with interferometric X-band SAR [J]. REMOTE SENSING OF ENVIRONMENT, 2010, 114 (10) : 2353 - 2360

[18] EU-wide maps of growing stock and above-ground biomass in forests based on remote sensing and field measurements[J] . Heinz Gallaun,Giuliana Zanchi,Gert-Jan Nabuurs,Geerten Hengeveld,Mathias Schardt,Pieter J. Verkerk.Forest Ecology and Management . 2009 (3)

[19] Biophysical estimation in tropical forests using JERS-1 SAR and VNIR imagery. II. Aboveground woody biomass[J] . C. Wang,J. Qi.International Journal of Remote Sensing . 2008 (23)

[20] Estimating Siberian timber volume using MODIS and ICESat/GLAS[J] . R. Nelson,K.J. Ranson,G. Sun,D.S. Kimes,V. Kharuk,P. Montesano.Remote Sensing of Environment . 2008 (3)

[11] 森林地上生物量的非参数化遥感估测方法优化[D]. 郭颖.中国林业科学研究院 2011

[12] 无人机航空摄影遥感森林计测方法[P]. 冯仲科,林宗坚,姚山. 中国专利:CN101008676,

[13] Features of point clouds synthesized from multi-view ALOS/PRISM data and comparisons with LiDAR data in forested areas[J] . Wenjian Ni,Kenneth Jon Ranson,Zhiyu Zhang,Guoqing Sun.Remote Sensing of Environment . 2014

[14] Characterizing 3D vegetation structure from space: Mission requirements[J] . Forrest G. Hall,Kathleen Bergen,James B. Blair,Ralph Dubayah,Richard Houghton,George Hurtt,Josef Kellndorfer,Michael Lefsky,Jon Ranson,Sasan Saatchi,H.H. Shugart,Diane Wickland.Remote Sensing of Environment . 2011 (11)

[15] Aboveground biomass retrieval in tropical forests - The potential of combined X- and L-band SAR data use [J]. REMOTE SENSING OF ENVIRONMENT, 2011, 115 (05) : 1260 - 1271

[16] Retrieval of growing stock volume in boreal forest using hyper-temporal series of Envisat ASAR ScanSAR backscatter measurements[J] . Maurizio Santoro,Christian Beer,Oliver Cartus,Christiane Schmullius,Anatoly Shvidenko,Ian McCallum,Urs Wegmüller,Andreas Wiesmann.Remote Sensing of Environment . 2010 (2)

[17] Estimating spruce and pine biomass with interferometric X-band SAR [J]. REMOTE SENSING OF ENVIRONMENT, 2010, 114 (10) : 2353 - 2360

[18] EU-wide maps of growing stock and above-ground biomass in forests based on remote sensing and field measurements[J] . Heinz Gallaun,Giuliana Zanchi,Gert-Jan Nabuurs,Geerten Hengeveld,Mathias Schardt,Pieter J. Verkerk.Forest Ecology and Management . 2009 (3)

[19] Biophysical estimation in tropical forests using JERS-1 SAR and VNIR imagery. II. Aboveground woody biomass[J] . C. Wang,J. Qi.International Journal of Remote Sensing . 2008 (23)

[20] Estimating Siberian timber volume using MODIS and ICESat/GLAS[J] . R. Nelson,K.J. Ranson,G. Sun,D.S. Kimes,V. Kharuk,P. Montesano.Remote Sensing of Environment . 2008 (3)