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Atmospheric Measurement Techniques An interactive open-access journal of the European Geosciences Union
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Volume 9, issue 1 | Copyright
Atmos. Meas. Tech., 9, 281-293, 2016
https://doi.org/10.5194/amt-9-281-2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Research article 27 Jan 2016

Research article | 27 Jan 2016

Characterization of downwelling radiance measured from a ground-based microwave radiometer using numerical weather prediction model data

M.-H. Ahn1, H. Y. Won1, D. Han1, Y.-H. Kim2, and J.-C. Ha2 M.-H. Ahn et al.
  • 1Department of Atmospheric Science and Engineering, Ewha Womans University, Ewha-Yeodae-Gil 52, Seodaemoon-Gu, Seoul, Republic of Korea
  • 2National Institute of Meteorological Sciences, Korea Meteorological Administration, 33, Seohobuk-ro, Seogwipo Jeju-do, Republic of Korea

Abstract. The ground-based microwave sounding radiometers installed at nine weather stations of Korea Meteorological Administration alongside with the wind profilers have been operating for more than 4 years. Here we apply a process to assess the characteristics of the observation data by comparing the measured brightness temperature (Tb) with reference data. For the current study, the reference data are prepared by the radiative transfer simulation with the temperature and humidity profiles from the numerical weather prediction model instead of the conventional radiosonde data. Based on the 3 years of data, from 2010 to 2012, we were able to characterize the effects of the absolute calibration on the quality of the measured Tb. We also showed that when clouds are present the comparison with the model has a high variability due to presence of cloud liquid water therefore making cloudy data not suitable for assessment of the radiometer's performance. Finally we showed that differences between modeled and measured brightness temperatures are unlikely due to a shift in the selection of the center frequency but more likely due to spectroscopy issues in the wings of the 60GHz absorption band. With a proper consideration of data affected by these two effects, it is shown that there is an excellent agreement between the measured and simulated Tb. The regression coefficients are better than 0.97 along with the bias value of better than 1.0K except for the 52.28GHz channel which shows a rather large bias and variability of −2.6 and 1.8K, respectively.

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A process to characterize a ground-based microwave radiometer by comparing measured radiance with a reference data, prepared by the radiative transfer simulation with the input of temperature and humidity profiles from NWP model is introduced. When the data affected by clouds and erroneous absolute calibration is compared, the data show a better than 0.97 and 0.5 K of regression coefficient and bias, respectively. However, there is unresolved discrepancy of about 2 K at the lower frequencies.
A process to characterize a ground-based microwave radiometer by comparing measured radiance...
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