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http://dx.doi.org/10.7780/kjrs.2019.35.1.13

An Improved Estimation of Outgoing Longwave Radiation Based on Geostationary Satellite  

Kim, Hyunji (Towill Inc.)
Seo, Minji (Division of Earth Environmental System Science, Pukyong National University)
Seong, Noh-hun (Division of Earth Environmental System Science, Pukyong National University)
Lee, Kyeong-sang (Division of Earth Environmental System Science, Pukyong National University)
Choi, Sungwon (Division of Earth Environmental System Science, Pukyong National University)
Jin, Donghyun (Division of Earth Environmental System Science, Pukyong National University)
Huh, Morang (Nano Climate & Weather LC.)
Han, Kyung-Soo (Department of Spatial Information Engineering, Pukyong National University)
Publication Information
Korean Journal of Remote Sensing / v.35, no.1, 2019 , pp. 195-201 More about this Journal
Abstract
The Outgoing Longwave Radiation (OLR) is an important satellite-driven variable for understanding the Earth's energy budget balance. The geostationary OLR retrievals require angular and spectral integration using an empirical equation for irradiance flux-to-OLR from a regression analysis, which determines the accuracy of the narrowband satellite-based OLR. We selected homogeneous pixels which is satisfied less temporal-spatial variability of cloud, on three infrared channels (6.7, 10.8, $12.0{\mu}m$) of the first multipurpose geostationary satellite in Korea, namely the Communication, Ocean and Meteorological Satellite/Meteorological Imager (COMS/MI). Multiple regression analysis was performed to retrieve OLR with improved accuracy using selected parameters based on theoretical and physical significance. This algorithm yielded retrieval with higher accuracy than broadband-based OLR retrieval: RMSE of 10.54 to $3.81W\;m^{-2}$, and bias of -8.49 to $-0.07W\;m^{-2}$.
Keywords
CERES-ES4; COMS; Outgoing Longwave Radiation;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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