P# |
Author |
Title (link to presentation if available) |
|
F-p01 |
Matthias Drusch |
SMOS NRT Brightness Temperatures for Land Surface Analysis
|
abstract |
F-p02 |
Andrew Fox |
Assimilating Biogeochemical and Biophysical Observations into a Land Surface Model Using the Data Assimilation Research Testbed
|
abstract |
F-p03 |
Christopher Hain |
Dual Assimilation of Microwave and Thermal-Infrared Satellite Observations of Soil Moisture into NLDAS for Improved Drought Monitoring
|
abstract |
F-p04 |
Eunjin Han |
Benchmarking a Soil Moisture Data Assimilation System for Agricultural Drought Monitoring
|
abstract |
F-p05 |
Timothy Hoar |
Ensemble Data Assimilation for Soil-Vegetation-Atmosphere Systems
|
abstract |
F-p06 |
Lipeng Jiang |
Assimilation of Soil moisture Retrievals from FY-3B Microwave Radiometer Imager into Community Land Model using Ensemble Kalman Filtering
|
abstract |
F-p07 |
Steven Levine |
Mesonet Data Assimlation and Quality Control Challenges for the Real-Time Mesoscale Analysis (RTMA) System
|
abstract |
F-p08 |
Bailing Li |
Assimilating GRACE Terrestrial Water Storage for Improving Land Surface Processes and Drought Monitoring
|
abstract |
F-p10 |
Yuqiong Liu |
Assimilating Satellite-Based Snow Depth and Snow Cover Products for Improving Snow Predictions in Alaska
|
abstract |
F-p11 |
Rihab Mechri |
Surface Temperature Downscaling based on Genetic Particle Smoother
|
abstract |
F-p12 |
Rolf Reichle |
A soil moisture data assimilation system for SMOS and SMAP
|
abstract |
F-p13 |
Chunxiang Shi |
China Land Data Assimilation System(CLDAS)Research and Operation
|
abstract |
F-p14 |
Kibrewossen Tesfagiorgisa |
Assimilating landscape freeze/thaw information in the NCEP Global Forecast System: Exploring the potential of the SMAP Freeze-Thaw product for weather and climate forecasting
|
abstract |
F-p16 |
Youlong Xia |
North American Land Data Assimilation System Phase 2 (NLDAS-2): Evaluation and Applications
|
abstract |
F-p18 |
Xiwu Zhan |
A Blended Satellite Soil Moisture Data Product from NESDIS-SMOPS for Assimilation in Numerical Weather Prediction Models
|
abstract |