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Improved determination of cloud-free radiances for oceans

Improvements have been made to the spatial coherence method for automatically
determining cloud-free ocean radiances in satellite imagery by incorporating the spectral
signatures of reflecting surfaces. The spatial coherence method relies on the fact that
small-scale cloud-free regions typically exhibit uniform emission and uniform reflection.
While small-scale overcast regions typically exhibit uniform emission, they often exhibit
considerable variability in reflectance. On rare occasions the requirements of spatial
uniformity are not met and errors are produced in estimated cloud-free radiances. The
frequency of errors in identification of cloud-free and overcast pixels was assessed using
two years of Advanced Very-High Resolution Radiometer (AVHRR) data from six regions
of the globe. Significant improvement in the identification of cloud-free radiances is
obtained by including a test of Q, the ratio of the AVHRR channel 2 (0.83-μm) reflectance
to channel 1 (0.63-μm) reflectance. Q varies depending on whether the reflecting surface
is cloud-free ocean, cloud-free land, or overcast by clouds. A study was conducted to
determine the dependence of Q for overcast pixels on changes in season and geography.
While some variation is evident due to satellite viewing angle and differences in
atmospheric water vapor content, these effects are sufficiently small that constant
thresholds may be used to help separate cloud-free and overcast pixels. The modified
spatial coherence method uses the threshold for Q and radiance uniformity thresholds at
0.63-μm and 11-μm to identify cloud-free and overcast pixels. A sensitivity study was
performed to determine the dependence of cloud-free ocean radiance estimates on the
values of the uniformity thresholds. The results of the study indicate that using thresholds
of 0.5% for the 0.63-μm reflectivity and 0.5 mWm⁻²sr⁻¹cm for the 11-μm radiance,
produces cloud-free radiances that are rarely biased by more than 0.4% for reflectances at
0.63 μm and 0.4 K for the 11-μm brightness temperature. The uniformity and Q
thresholds may be used for a large variety of scenes from different seasons and geographic
areas. / Graduation date: 2000

Identiferoai:union.ndltd.org:ORGSU/oai:ir.library.oregonstate.edu:1957/28882
Date01 December 1999
CreatorsBurden, Arthur R.
ContributorsCoakley, James Jr
Source SetsOregon State University
Languageen_US
Detected LanguageEnglish
TypeThesis/Dissertation

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