Alternative cloud clearing methodologies for the Atmospheric Infrared Sounder (AIRS)

C. D. Barnet; M. Goldberg; Thomas King; Nicholas Nalli; Walter Wolf; Lihang Zhou; Jennifer Wei

doi:10.1117/12.615238

29 August 2005 Alternative cloud clearing methodologies for the atmospheric infrared sounder (AIRS)

C. D. Barnet, M. Goldberg, Thomas King, Nicholas Nalli, Walter Wolf, Lihang Zhou, Jennifer Wei

Proceedings Volume 5890, Atmospheric and Environmental Remote Sensing Data Processing and Utilization: Numerical Atmospheric Prediction and Environmental Monitoring; 58900S (2005) https://doi.org/10.1117/12.615238
Event: Optics and Photonics 2005, 2005, San Diego, California, United States

Abstract

Traditional cloud clearing methods utilize a clear estimate of the atmosphere inferred from a microwave sounder to extrapolate cloud cleared radiances (CCR's) from a spatial interpolation of multiple cloudy infrared footprints. Unfortunately, sounders have low information content in the lower atmosphere due to broad weighting functions, interference from surface radiance and the microwave radiances can also suffer from uncorrected side-lobe contamination. Therefore, scenes with low altitude clouds can produce errant CCR's that, in-turn, produce errant sounding products. Radiances computed from the corrupted products can agree with the measurements within the error budget making detection and removal of the errant scenes impractical; typically, a large volume of high quality retrievals are rejected in order to remove a few errant scenes. In this paper we compare and contrast the yield and accuracy of the traditional approach with alternative methods of obtaining CCR's. The goal of this research is three-fold: (1) to have a viable approach if the microwave instruments fail on the EOS-AQUA platform; (2) to improve the accuracy and reliability of infrared products derived from CCR's; and (3) to investigate infrared approaches for geosynchronous platforms where microwave sounding is difficult. The methods discussed are (a) use of assimilation products, (b) use of a statistical regression trained on cloudy radiances, (c) an infrared multi-spectral approach exploiting the non-linearity of the Planck function, and (d) use of clear MODIS measurements in the AIRS sub-pixel space. These approaches can be used independently of the microwave measurements; however, they also enhance the traditional approach in the context of quality control, increased spatial resolution, and increased information content.

Citation Download Citation

C. D. Barnet, M. Goldberg, Thomas King, Nicholas Nalli, Walter Wolf, Lihang Zhou, and Jennifer Wei "Alternative cloud clearing methodologies for the atmospheric infrared sounder (AIRS)", Proc. SPIE 5890, Atmospheric and Environmental Remote Sensing Data Processing and Utilization: Numerical Atmospheric Prediction and Environmental Monitoring, 58900S (29 August 2005); https://doi.org/10.1117/12.615238

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