64 |
Umar W Liaqat, Usman K Awan, Matthew Francis McCabe, Minha Choi2016
A geo-informatics approach for quantifying and establishing a correlation between strategic water resources management components. Agricultural Water Management |
63 |
Dongkyun Kim, Jaehyun Lee, Hyunglok Kim and Minha Choi2016
Spatial Composition of AMSR2 Soil Moisture Products by Conditional Merging Technique with Ground Soil Moisture Data. Stochastic Environmental Research and Risk Assessment |
62 |
Jungho Im, Sunyeong Park, Jinyoung Rhee, Jongjin Baek, Minha Choi2016
Downscaling of AMSR-E soil moisture with MODIS products using machine learning approaches. Environmental Earth Sciences |
61 |
Eunsang Cho, Aoqi Zhang, Minha Choi2016
The seasonal difference of soil moisture patterns with considering meteorological variables throughout the Korean peninsula. Terrestrial, Atmospheric and Oceanic Sciences |
60 |
Dongkyun Kim, Huidae Cho, Christian Onof, Minha Choi2016
Let-It-Rain: A web application for stochastic point rainfall generation at ungaged basins and its applicability in runoff and flood modeling. Stochastic Environmental Research and Risk Assessment |
59 |
Usman K Awan, Umar W Liaqat, Minha Choi2016
A SWAT modeling approach to assess the impact of climate change on consumptive water use in Lower Chenab Canal area of Indus basin. Hydrology Research |
58 |
Jongjin Baik, Jongmin Park, Dongryeol Ryu, and Minha Choi2016
Geospatial blending to improve spatial mapping of precipitation with high spatial resolution by merging satellite- and ground based data. Hydrological Processes |
57 |
Daeun Kim, Seokkoo Kang, Minha Choi2016
Land Surface Models Evaluation for two different land cover-types: Cropland and Forest. Terrestrial, Atmospheric and Oceanic Sciences |
56 |
Muhammad Azmat, Minha Choi, Taewoong Kim, Umar W Liaqat2016
Hydrological modeling for climate change analysis in a scarcely gauged cryosphere catchment. Environmental Earth Sciences |
55 |
Daeun Kim, Seokkoo Kang, Minha Choi2016
Land response to atmosphere at different resolutions in Common Land Model over East Asia. Advances in Atmospheric Sciences |