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Manfred Schroeder
Fig. 1: Enlarged MOMS-2P-scene (2 July 1998) with 400 x 400 sqm calibration area.
The La Crau test site is used on routine basis for SPOT calibration. Therefore it is equipped with a CIMEL
automatic radiometer operated by the CNRS LISE French laboratory originally developed for SPOT absolute
calibration [1]. The instrument is a sunphotometer mounted on a 10 meter high mast and consists of two
collimators, one for IR channels (Germanium detector) and one for visible bands (Silicon detector). The
instrument delivers data in nine spectral bands 10 nm wide. The central wavelengths are 380 nm for molecular
scattering, 440 nm, 550 nm, 670 nm, 870 nm and 1600 nm for aerosols in the SPOT and VEGETATION spectral
bands, 936 nm for the water vapour, 1020 nm to complete the aerosols knowledge. The radiance at 870 nm is
acquired both with the IR and the visible collimators in order to intercalibrate them. The automatic operating
procedure includes 3 sequential modes repeated all the day long for optical airmasses up to 5. In the first mode,
the sun collimator points at the sun and measures direct solar irradiance in order to retrieve the water vapour
abundance, aerosol optical depths and the Angstróm coefficient. The second mode consists in sky radiances
measurements in the almucantar and principal plane and is used for phase function retrieval. In the last mode, the
collimator scans the ground both in azimuthal and zenital directions and measures the surface BRDF. This
instrumentation enables autonomous self-sufficient measurements for SPOT calibration. As the instrument had
power unit and data transmission troubles on the 7/2/98, it has been replaced by the previous operational
instruments, formerly used on the test site for vicarious calibration. First a classical automatic CIMEL
sunphotometer with the commonly used six filters centered at 440 nm, 670 nm, 870 nm, 1020 nm for the
aerosols characterisation, and 937 nm (10 nm wide) and 940 nm (50 nm wide) for the water vapour was operated
instead. As a redundancy, a portable CIMEL 318 sunphotometer equipped with the same bands was operated
simultaneously in manual mode [8]. These instruments are not fully equipped for all the Spot spectral channels
and can only be used for the atmospheric characterization.
Therefore, a ground radiometer, based on a standard photodiode equipped with 3 bands centered at 550, 650, 850
nm provides the ground reflectance in the 3 SPOT multispectral channels. For MOMS bands, shifted with
regards to SPOT, the spectrometer ZEISS-MCS[2] was used to measure the ground reflectance, the total and
diffuse downwelling irradiance. The last two parameters lead to the atmospheric direct transmittance from which
the aerosol optical properties will be derived. This method although indirect, offers the advantage to give
spectral information and thus to separate the contribution of most important gazeous constituents and aerosols.
This technique was assessed for the first time during this campaign, and the proven method based on the
International Archives of Photogrammetry and Remote Sensing. Vol. XXXIII, Part Bl. Amsterdam 2000. 279
