Crop monitoring, Remote Sensing, Unmanned/Manned Airborne Systems, Hyperspectral, Thermal, Solar-induced fluorescence, Machine learning, Ecosystem modeling, Radiative transfer modeling, Digital Agriculture, Eco-hydrology, Precision Farming

Postdoc Project at UIUC

Towards operational methodologies to monitor crop functional traits using airborne-satellite integrative remote sensing and machine learning Adviser: Dr. Kaiyu Guan

Framework to quantify crop traits from airborne hyperspectral remote sensing (ongoing)

PhD Project at DTU

Hyperspatial mapping of water, energy and carbon fluxes with an Unmanned Aerial System Advisers: Dr. Monica Garcia, Dr. Peter Bauer-Gottwein, and Dr. Andreas Ibrom

Framework of unmanned airborne system for monitoring key ecohydrologic processes in agricultural and natural ecosystems

For details, please refer to my PhD thesis. Wang Sheng (2019). Hyperspatial mapping of land surface water, energy and CO2 fluxes from Unmanned Aerial Systems: Technical University of Denmark. Kgs. Lyngby, Denmark

PhD External Stay

• Evaluating the influence of aerosol optical depths on land surface carbon and water fluxes, Advisers: Dr. Christiaan van der Tol, University of Twente, the Netherlands (Jan. 2018 - Feb. 2018)
• Radiometric calibration of a multispectral imaging sensor deployed on Unmanned Aerial Vehicles, Adviser: Dr. Pablo J. Zarco-Tejada, Spanish National Research Council, Spain (Jan. 2016)

Master Project

Copenhagen University thesis: Evaluation of remotely sensed precipitation and its performance for streamflow simulations in basins of the southeast Tibetan Plateau. Advisers: Dr. Suxia Liu and Dr. Peter Bauer-Gottwein

Evaluation of the utility of satellite precipitation products for hydrological simulation in two catchments of the southeastern Tibetan Plateau using the VIP distributed hydrological model.

Wang et al. (2015). Evaluation of remotely sensed precipitation and its performance for streamflow simulations in basins of the southeast Tibetan Plateau. Journal of Hydrometeorology. 16(6): 2577-2594. doi: 10.1175/JHM-D-14-0166.1.

Chinese Academy of Sciences thesis: Quantifying the teleconnection between polar motion and global hydroclimatic variability. Adviser: Dr. Suxia Liu Granger causality analysis between Polar motion Y component and annual terrestrial precipitation from 1901 to 2000.