Publications

Ryu, Jae-Hyun; Han, Kyung-Soo; Cho, Jaeil; Lee, Chang-Suk; Yoon, Hong-Joo; Yeom, Jong-Min; Ou, Mi-Lim (2015). Estimating midday near-surface air temperature by weighted consideration of surface and atmospheric moisture conditions using COMS and SPOT satellite data. INTERNATIONAL JOURNAL OF REMOTE SENSING, 36(13), 3503-3518.

Abstract
The measurement of near-surface air temperature (T-a) is critically important for understanding the Earth's energy and water circulation system and for diverse modelling applications. T-a data obtained from meteological ground stations are basically available but not suitable for large-scale areas, because of their spatial limitation. Remote-sensing techniques can provide a spatially well-distributed T-a map. However, the current remote-sensing methodology for T-a mapping has accuracy inferior to common expectations in terms of the region of various terrestrial ecosystems and climatic conditions. Our aim was to develop a midday T-a retrieval algorithm with reasonable accuracy over Northeast Asia during one seasonal year. In consideration of the various environmental conditions in our study area, T-a was calculated using land surface temperature and the normalized difference vegetation index in the nine cases derived from the combination of surface and atmospheric moisture conditions, and a weighting factor was applied to reduce the bias error among T-a results from nine cases. The reasonable pixel window size was established as 13 x 13. The validation process yielded a coefficient of determination (R-2), root mean square error, and bias values of 0.9401, 2.8865 K, and 0.4920 K, respectively. Although the study area includes diverse land-cover and climatic conditions, our satellite-derived T-a data provided better results compared with a previous study of only four cases with no weighting function in the Korean peninsula. Our suggested methodology will be useful in estimating T-a using satellite data, particularly over complex land surfaces.

DOI:
10.1080/01431161.2015.1065355

ISSN:
0143-1161