Development of Himawari-8/Advanced Himawari Imager (AHI) Land Surface Temperature Retrieval Algorithm

We developed land surface temperature (LST) retrieval algorithms based on the time of day and water vapor content using the Himawari-8/AHI (Advanced Himawari Imager) data, which is the Japanese next generation geostationary satellite. To develop the LST retrieval algorithms, we simulated the spectra...

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Published inRemote sensing (Basel, Switzerland) Vol. 10; no. 12; p. 2013
Main Authors Choi, Youn-Young, Suh, Myoung-Seok
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.12.2018
Subjects
Air temperature
Algorithms
Atmosphere
Bias
Brightness temperature
Cold season
Computer simulation
Correlation coefficient
Correlation coefficients
Diurnal
Diurnal variations
Emissivity
Himawari-8
Land surface temperature
Lapse rate
Meteorological satellites
MODIS
Radiance
Radiative transfer
Radiometers
Remote sensing
Response functions
Retrieval
Root-mean-square errors
Seasons
Sensors
Spectra
Spectral emissivity
Spectral sensitivity
Spectroradiometers
split-window method
Studies
Synchronous satellites
Temperature
Temperature effects
Temperature gradients
Time of use
Vegetation
Water vapor
East Asia
Asia
United States > US
China
Japan
Online AccessGet full text
ISSN2072-4292
2072-4292
DOI10.3390/rs10122013

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Abstract We developed land surface temperature (LST) retrieval algorithms based on the time of day and water vapor content using the Himawari-8/AHI (Advanced Himawari Imager) data, which is the Japanese next generation geostationary satellite. To develop the LST retrieval algorithms, we simulated the spectral radiance using the radiative transfer model (MODTRAN4) by applying the atmospheric profiles (SeeBor), diurnal variation of LST and air temperature, spectral emissivity of land surface, satellite viewing angle, and spectral response function of Himawari-8/AHI. To retrieve the LST from Himawari-8 data, a linear type of split-window method was used in this study. The Himawari-8 LST algorithms showed a high correlation coefficient (0.996), and a small bias (0.002 K) and root mean square error (RMSE) (1.083 K) between prescribed LSTs and estimated LSTs. However, the accuracy of LST algorithms showed a slightly large RMSE when the lapse rate was larger than 10 K, and the brightness temperature difference was greater than 6 K. The cross-validation of Himawari-8/AHI LST using the MODIS (Terra and Aqua Moderate Resolution Imaging Spectroradiometer) LST showed that annual mean correlation coefficient, bias, and RMSE were 0.94, +0.45 K, and 1.93 K, respectively. The performances of LST algorithms were slightly dependent on the season and time of day, generally better during the night (warm season) than during the day (cold season).
AbstractList We developed land surface temperature (LST) retrieval algorithms based on the time of day and water vapor content using the Himawari-8/AHI (Advanced Himawari Imager) data, which is the Japanese next generation geostationary satellite. To develop the LST retrieval algorithms, we simulated the spectral radiance using the radiative transfer model (MODTRAN4) by applying the atmospheric profiles (SeeBor), diurnal variation of LST and air temperature, spectral emissivity of land surface, satellite viewing angle, and spectral response function of Himawari-8/AHI. To retrieve the LST from Himawari-8 data, a linear type of split-window method was used in this study. The Himawari-8 LST algorithms showed a high correlation coefficient (0.996), and a small bias (0.002 K) and root mean square error (RMSE) (1.083 K) between prescribed LSTs and estimated LSTs. However, the accuracy of LST algorithms showed a slightly large RMSE when the lapse rate was larger than 10 K, and the brightness temperature difference was greater than 6 K. The cross-validation of Himawari-8/AHI LST using the MODIS (Terra and Aqua Moderate Resolution Imaging Spectroradiometer) LST showed that annual mean correlation coefficient, bias, and RMSE were 0.94, +0.45 K, and 1.93 K, respectively. The performances of LST algorithms were slightly dependent on the season and time of day, generally better during the night (warm season) than during the day (cold season).
Author Suh, Myoung-Seok
Choi, Youn-Young
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Snippet We developed land surface temperature (LST) retrieval algorithms based on the time of day and water vapor content using the Himawari-8/AHI (Advanced Himawari...
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SubjectTerms Air temperature
Algorithms
Atmosphere
Bias
Brightness temperature
Cold season
Computer simulation
Correlation coefficient
Correlation coefficients
Diurnal
Diurnal variations
Emissivity
Himawari-8
Land surface temperature
Lapse rate
Meteorological satellites
MODIS
Radiance
Radiative transfer
Radiometers
Remote sensing
Response functions
Retrieval
Root-mean-square errors
Seasons
Sensors
Spectra
Spectral emissivity
Spectral sensitivity
Spectroradiometers
split-window method
Studies
Synchronous satellites
Temperature
Temperature effects
Temperature gradients
Time of use
Vegetation
Water vapor
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Title Development of Himawari-8/Advanced Himawari Imager (AHI) Land Surface Temperature Retrieval Algorithm
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