The Global Ecosystem Dynamics Investigation: High-resolution laser ranging of the Earth’s forests and topography R Dubayah, JB Blair, S Goetz, L Fatoyinbo, M Hansen, S Healey, ... Science of remote sensing 1, 100002, 2020 | 712 | 2020 |
Mapping global forest canopy height through integration of GEDI and Landsat data P Potapov, X Li, A Hernandez-Serna, A Tyukavina, MC Hansen, ... Remote Sensing of Environment 253, 112165, 2021 | 677 | 2021 |
Retrieval of vertical LAI profiles over tropical rain forests using waveform lidar at La Selva, Costa Rica H Tang, R Dubayah, A Swatantran, M Hofton, S Sheldon, DB Clark, ... Remote Sensing of Environment 124, 242-250, 2012 | 208 | 2012 |
Deriving and validating Leaf Area Index (LAI) at multiple spatial scales through lidar remote sensing: A case study in Sierra National Forest, CA H Tang, M Brolly, F Zhao, AH Strahler, CL Schaaf, S Ganguly, G Zhang, ... Remote Sensing of Environment 143, 131-141, 2014 | 207 | 2014 |
The GEDI simulator: A large‐footprint waveform lidar simulator for calibration and validation of spaceborne missions S Hancock, J Armston, M Hofton, X Sun, H Tang, LI Duncanson, ... Earth and Space Science 6 (2), 294-310, 2019 | 200 | 2019 |
Aboveground biomass density models for NASA’s Global Ecosystem Dynamics Investigation (GEDI) lidar mission L Duncanson, JR Kellner, J Armston, R Dubayah, DM Minor, S Hancock, ... Remote Sensing of Environment 270, 112845, 2022 | 168 | 2022 |
Rapid, high-resolution forest structure and terrain mapping over large areas using single photon lidar A Swatantran, H Tang, T Barrett, P DeCola, R Dubayah Scientific reports 6 (1), 28277, 2016 | 167 | 2016 |
Light-driven growth in Amazon evergreen forests explained by seasonal variations of vertical canopy structure H Tang, R Dubayah Proceedings of the National Academy of Sciences 114 (10), 2640-2644, 2017 | 134 | 2017 |
Neural network guided interpolation for mapping canopy height of China's forests by integrating GEDI and ICESat-2 data X Liu, Y Su, T Hu, Q Yang, B Liu, Y Deng, H Tang, Z Tang, J Fang, Q Guo Remote Sensing of Environment 269, 112844, 2022 | 109 | 2022 |
Characterizing global forest canopy cover distribution using spaceborne lidar H Tang, J Armston, S Hancock, S Marselis, S Goetz, R Dubayah Remote Sensing of Environment 231, 111262, 2019 | 107 | 2019 |
GEDI launches a new era of biomass inference from space R Dubayah, J Armston, SP Healey, JM Bruening, PL Patterson, JR Kellner, ... Environmental Research Letters 17 (9), 095001, 2022 | 96 | 2022 |
Improved forest height estimation by fusion of simulated GEDI Lidar data and TanDEM-X InSAR data W Qi, SK Lee, S Hancock, S Luthcke, H Tang, J Armston, R Dubayah Remote Sensing of Environment 221, 621-634, 2019 | 94 | 2019 |
Large-scale retrieval of leaf area index and vertical foliage profile from the spaceborne waveform lidar (GLAS/ICESat) Hao Tang, Ralph Dubayah, Matthew Brolly, Sangram Ganguly, Gong Zhang Remote Sensing of Environment 154, 8-18, 2014 | 90 | 2014 |
Algorithm theoretical basis document (ATBD) for GEDI L2B footprint canopy cover and vertical profile metrics H Tang, J Armston, R Dubayah Goddard Space Flight Center: Greenbelt, MD, USA, 2019 | 58 | 2019 |
High-resolution mapping of aboveground biomass for forest carbon monitoring system in the Tri-State region of Maryland, Pennsylvania and Delaware, USA W Huang, K Dolan, A Swatantran, K Johnson, H Tang, J O’Neil-Dunne, ... Environmental Research Letters 14 (9), 095002, 2019 | 55 | 2019 |
GEDI L2B canopy cover and vertical profile metrics data global footprint level V001 [Data set]. NASA EOSDIS Land Processes DAAC R Dubayah, H Tang, J Armston, S Luthcke, M Hofton, JB Blair Accessed 2023-05-16 from https://doi. org/10.5067/GEDI/GEDI02_B. 001, 2020 | 54* | 2020 |
The NASA AfriSAR campaign: Airborne SAR and lidar measurements of tropical forest structure and biomass in support of current and future space missions T Fatoyinbo, J Armston, M Simard, S Saatchi, M Denbina, M Lavalle, ... Remote Sensing of Environment 264, 112533, 2021 | 49 | 2021 |
Evaluating the potential of full‐waveform lidar for mapping pan‐tropical tree species richness SM Marselis, K Abernethy, A Alonso, J Armston, TR Baker, JF Bastin, ... Global Ecology and Biogeography 29 (10), 1799-1816, 2020 | 49 | 2020 |
Distinguishing vegetation types with airborne waveform lidar data in a tropical forest-savanna mosaic: A case study in Lopé National Park, Gabon SM Marselis, H Tang, JD Armston, K Calders, N Labrière, R Dubayah Remote sensing of environment 216, 626-634, 2018 | 49 | 2018 |
Voxel-based spatial filtering method for canopy height retrieval from airborne single-photon lidar H Tang, A Swatantran, T Barrett, P DeCola, R Dubayah Remote Sensing 8 (9), 771, 2016 | 49 | 2016 |