New Radiometric Calibration
New Radiometric Calibration
Following a characterization of an instrumental non-linearity defect and its correction inside the data level-1 processing (see Fougnie et al., 2001), a reappraisal of the radiometric calibration was required. In addition, improvements in some of our calibration methods have been made these last months.
The two main modifications in the calibration algorithm are:
- the use of a climatology (SeaWiFs 1999) to identify the oceanic sites that are the best for calibration over Rayleigh scattering. These sites have to be stable in terms of spatial and seasonal variation. The second objective of this climatology was to provide indicative values for pigments concentration and/or water leaving radiance that are more realistic than the previously used ones.
- the second improvement is the use of the 490 nm spectral band as pivot (instead of 565) for the inter-band calibration over sunglint. The absolute calibration of the 490 band is considered more credible than the absolute calibration of the 565 nm band.
Different methods were considered to establish the new version of the radiometric calibration. Among them, the calibration over rayleigh scattering (absolute), the calibration over sunglint (interband), the calibration over clouds (interband), the cross calibration with SeaWiFS over desert sites (N1 referring to Barnes et al., 2001, and N2 referring to Eplee et al., 2000), and vicarious calibration using in-situ measurements. The main results for all these methods are:
- a relatively good consistency of all the methods: all the results are within ± 3%
- a decrease of the sensitivity from the prelaunch value is evidenced for the 443 nm band. The uncertainty of absolute calibration in this spectral band is still higher than in the other bands.
- the Rayleigh scattering calibration results are directly used for the bands 443, 443P, and 490
- the other bands derived from the interband calibration with the 490 band using the sunglint
- the new Version 3.0 calibration coefficient used to generate the level-1 products are
Remark: The Version 1.0 refers to the pre-launch calibration (DAk = 1) and the Version 2.0 calibration values used in the previous level-1 processing were:
The difference found between V3.0 and V2.0 coefficients is due to both non-linearity correction and algorithm improvement.
O. Hagolle, P. Goloub, P.-Y. Deschamps, H. Cosnefroy, X. Briottet, T. Bailleul, J.M.Nicolas, F. Parol, B. Lafrance, and M. Herman, "Results of POLDER In-Flight Calibration," IEEE Trans. Geosci. And Remote Sensing, vol. 37, pp. 1550-1566, 1999.
Fougnie, B., P.Y. Deschamps, and R. Frouin, "Vicarious Calibration of the POLDER Ocean Color Spectral Bands using in-situ measurements", IEEE Trans. Geosci. and Remote Sensing, vol. 37, No. 3, pp. 1567-1574, 1999.
Fougnie, B., O. Hagolle, and F. Cabot, "In-flight measurement and correction of non-linearity of the POLDER-1's sensitivity", 8th Symposium of the International Society for Photogrammetry and Remote Sensing, Aussois, France, 8-12 janvier 2001.
Please address any question to Bertrand.Fougnie at cnes.fr