D
Dalei Hao
Researcher at Chinese Academy of Sciences
Publications - 58
Citations - 773
Dalei Hao is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Environmental science & Terrain. The author has an hindex of 9, co-authored 28 publications receiving 243 citations. Previous affiliations of Dalei Hao include Pacific Northwest National Laboratory & Joint Global Change Research Institute.
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Optical vegetation indices for monitoring terrestrial ecosystems globally
Yelu Zeng,Dalei Hao,Alfredo Huete,Benjamin Dechant,Joseph A. Berry,Jing M. Chen,Joanna Joiner,Christian Frankenberg,Ben Bond-Lamberty,Youngryel Ryu,Jingfeng Xiao,Ghassem R. Asrar,Min Chen +12 more
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Characterizing Land Surface Anisotropic Reflectance over Rugged Terrain: A Review of Concepts and Recent Developments
TL;DR: The status of estimating land surface BRDF properties over rugged terrain is comprehensively reviewed from a historical perspective and summarized in two categories: BRDFs describing solo slopes and those describing composite slopes.
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Land Use Change and Climate Variation in the Three Gorges Reservoir Catchment from 2000 to 2015 Based on the Google Earth Engine.
Binfei Hao,Mingguo Ma,Shiwei Li,Qiuping Li,Dalei Hao,Jing Huang,Zhongxi Ge,Hong Yang,Hong Yang,Xujun Han +9 more
TL;DR: There was a significantly negative relationship between LST and SINDVI in most parts of the TGRC, especially in expanding urban areas and growing forest areas, which highlighted the importance of environmental protection, particularly proper management of land use, for sustainable development in the catchment.
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Modeling Anisotropic Reflectance Over Composite Sloping Terrain
TL;DR: The results reveal that the dESM model can accurately capture the reflectance anisotropy over composite sloping terrain under different illumination conditions, and the subtopographic impact factor can account for the effects of microslope topography, shadow, and illumination conditions.
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Estimating hourly land surface downward shortwave and photosynthetically active radiation from DSCOVR/EPIC observations
TL;DR: In this article, the authors used a random forest model to estimate global hourly downward shortwave radiation (SW) and photosynthetically active radiation (PAR) at 0.1°×0.0° (about 10 km at equator) spatial resolution based on EPIC measurements.