The overall objectives of VEGETATION are to provide accurate and operational measurements of simple
characteristics of vegetation canopies either for scientific studies or for operational programmes of vegetation
productions prediction and management (Durpaire et al, 1992, Saint et al, 1993).
VEGETATION/SPOT-4 system has been designed as a self-contained add-on system complete with its own
imaging, recording and data transmission capability. The system includes its associated ground segment. The
VEGETATION programme is a joint programme of the European Union, Belgium, Italy, Sweden and France.
The main instrument characteristics are given in Table 2.
The spectral bands B2, B3 and MIR are those of HRVTR. The simultaneity and collocation of comparable data
will permit improved performances in radiometry and geometry and give the capability of a scale integration
without any distorsion due to temporal variations of surface signatures or atmospheric effects.
The data will be made available to users both through a global acquisition and local direct read out stations.
The products are still under definition by the International Users Committee. The proposed general structure is
shown in Figure 1.
4.3 POLDER/ADEOS
CNES also develops the POLDER (POLarization and Directionality of Earth Reflectances) instrument
primarily designed for the study of interactions between aerosols, clouds and radiation and the impact of
aerosols on the climate change. Another of his objectives is the monitoring of ocean colour and its relationship
with ocean carbon absorption. Finally it will also permit to characterize the vegetation dynamics at low
resolution and global scale.
This CCD matrix instrument, whose principle is described in Figure 4 will measure the apparent reflectances of
terrestrial targets under 12 viewing angles, in eight spectral bands , 2 of them specially for vegetation and the
polarization in 3 of them (Table 3).
Given the 102° field of view, 5 successive orbits are necessary to build a complete bidirectional reflectance
function for a midlatitude pixel.
The instrument developed by CNES will be flown onboard the Japanese platform ADEOS to be launched in
1996.
The POLDER standard products have been defined for each application. For vegetation studies, the level 2
products will be the surface spectral reflectance (corrected from atmospheric contamination), bidirectional
signature, vegetation index and albedo. They are defined on an equivalent sinusoidal projection at 6 km
resolution. Level 1 to level 3 products (time or spatial composite of geophysical products at global scale) will
also be produced for distribution by CNES to the international research community.
4.4 IRSUTE
IRSUTE for Infra Red Satellite Unit for Terrestrial Environment is proposed as a scientific mission for
methodologic studies of surface fluxes determination with thermal imagery at high spatial resolution. It will
serve to optimize the methods of atmospheric correction, decoupling surface temperature and emissivity and
ultimately retrieve fluxes combining with information at lower resolution and better repetitivity from
METEOSAT, AVHRR or ATSR. Other applications to geology, soil characterization, fire detection, thermal
pollution are envisaged.
This instrument is considered for a phase A study. Its main specifications are given in Table 4.
The main adavantages of this instrument is its very spatial resolution (40m), an optimal combination of
channels (3.7, 9.0, 10.5 and 11.5 pm), its capability to point 40° along the track.
It is proposed to be embarked on a small platform. The optimal orbit for a revisit better than three days over
around 20 experimental sites of 10 by 10 km and distributed over the world will be determined. The time pass
specified is between 10 and 14 local time.
