7 September 2006 Vicarious calibration of GOES Imager visible channel using the Moon
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Proceedings Volume 6296, Earth Observing Systems XI; 62960Z (2006); doi: 10.1117/12.681591
Event: SPIE Optics + Photonics, 2006, San Diego, California, United States
Abstract
In this paper, we study the feasibility of a method for vicarious calibration of the GOES Imager visible channel using the Moon. The measured Moon irradiance from 26 unclipped moon imagers exhausted all the potential Moon appearances between July 1998 and December 2005, together with the seven scheduled Moon observation data obtained after November 2005, were compared with the USGS lunar model results to estimate the degradation rate of the GOES-10 Imager visible channel. A total of nine methods of determining the space count and identifying lunar pixels were employed in this study to measure the Moon irradiance. Our results show that the selected mean and the masking Moon appears the best method. Eight of the nine resulting degradation rates range from 4.5%/year to 5.0%/year during the nearly nine years of data, which are consistent with most other degradation rates obtained for GOES-10 based on different references. In particular, the degradation rate from the Moon-based calibration (4.5%/year) agrees very well with the MODIS-based calibration (4.4%/year) over the same period, confirming the capability of relative and absolute calibration based on the Moon. Finally, our estimate of lunar calibration precision as applied to GOES-10 is 3.5%.
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Xiangqian Wu, Thomas C. Stone, Fangfang Yu, Dejiang Han, "Vicarious calibration of GOES Imager visible channel using the Moon", Proc. SPIE 6296, Earth Observing Systems XI, 62960Z (7 September 2006); doi: 10.1117/12.681591; https://doi.org/10.1117/12.681591
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Calibration

Imaging systems

Sensors

Satellites

Data modeling

Aerospace engineering

Solids

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