Validation of atmospheric correction algorithms based on multi-sensor data

Details Validation of atmospheric correction algorithms based on multi-sensor data Validation of atmospheric correction algorithms based on multi-sensor data

May 1997

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997adspr..19.1371m&link_type=abstract

Advances in Space Research, Volume 19, Issue 9, p. 1371-1374.

Physics

Scientific paper

The radiance and degree of polarization of atmospheric aerosols were measured with a portable photopolarimeter over the ocean around the Shikoku-Island of Japan in July, 1995. We found that it is possible to retrieve appropriate aerosol models from the measurements based on simulations of polarization fields. It has been shown in the previous paper (Mukai et al., 1992) that an appropriate aerosol model is a key factor for an atmospheric correction including multiple scattering light in the atmosphere-ocean system. Here our atmospheric correction involving the aerosol retrieval is validated by using the Nimbus-7 CZCS image of interest. It is emphasized that our treatment provides the improved pigment map of the sea surface near Japan, and that this work is available for ongoing project of OCTS and POLDER onboard the satellite ADEOS.

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