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John Armston
University of MarylandMeeting roles in:
Elevating Earth Knowledge and Education through Next-Generation Satellite Laser Altimetry
Predicting the Spatio-temporal Dynamics of Forest Responses to Changing Wildfire Regimes
The effects of global climate change on forest carbon sequestration potential
Advancing High-Resolution Forest Structure, Biomass, and Change Estimation in ASEAN Countries through GEDI-TanDEM-X Fusion
NISAR Ecosystems: Science performance and early results
Advances in Geodetic Mapping of Earth: Tracking Earth’s Changing Surface, Including Solid Earth, Cryosphere, and Ecosystems I Oral
Continuous Global Forest Structural Complexity Mapping at 25m Resolution from GEDI and SAR Deep Fusion
Landsat-based Stratification for Quality Filtering and Aboveground Biomass Density Estimates in GEDI Data Products
On the synergy of the NASA GEDI and NASA/ISRO NISAR missions for high-resolution biomass mapping
Advances in Geodetic Mapping of Earth: Tracking Earth’s Changing Surface, Including Solid Earth, Cryosphere, and Ecosystems II Oral
Characterizing wildfire fuels and severity with satellite laser altimetry: a path from GEDI to EDGE
Co-Development of Sampling Lidar Missions and Statistical Methods for Evaluating Vegetation Structure and Change
Next Generation Forest Carbon Monitoring and Modeling Using Satellite Laser Altimetry
Advances in Geodetic Mapping of Earth: Tracking Earth’s Changing Surface, Including Solid Earth, Cryosphere, and Ecosystems III Poster
The Earth Dynamics Geodetic Explorer (EDGE) mission: A swath-imaging multifunction lidar for tracking the 3D structure of terrestrial ecosystems and surface topography of ice
libTTS: A Modular Topological Data Analysis Pipeline for Forest Point Cloud Analysis with a Pathway to Deep Learning Integration
Selection criteria for release-3 models for GEDI aboveground biomass density
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