The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. XXXVII. Part B4. Beijing 2008
Furby, S.L., Campbell, N.A., 2001. Calibrating images from
different dates to “like value” digital counts, Remote Sensing of
Environment, 77: 186-196.
Hall, F.G., Strebel, D.E., Nickeson, J.E. and Goetz, S.J., 1991.
Radiometric rectification: toward a common radiometric
response among multidate, multisensor images, Remote Sensing
of Environment, 35: 11-27.
Martinoty, G., 2005. Reconnaissance de matériaux sur des
images aériennes en multirecouvrement, par identification de
fonctions de réflectances bidirectionnelles. Thèse de doctorat de
l'Université Paris 7.
Paolini, L., Grings, F., Sobrino, J.A., Jiménez Muñoz, J.C. and
Karszenbaum, H., 2006. Radiometric correction effects in
Landsat multi-date/multi-sensor change detection studies,
International Journal of Remote Sensing, 27(4): 685-704.
Petit, M., Faure, J.F., Girres, J.F., Ose, K., Durieux, L., Huynh,
F., Lasselin, D., Deshayes, M. and Stach, N., 2007. A first
global spot mosaic of French Guiana in the Framework of
Kyoto protocol by direct receiving station SEAS-Guyane
facility. Colloque international ForestSat’07. Montpellier
(France).
Tucker, C.J., Grant, D.M. and Dykstra, J.D., 2004. NASA’s
global orthorectified Landsat data set, Photogrammetric
Engineering and Remote Sensing, 70(3): 313-322.
Xandri, R., Pérez, F., Pala, V., Arbiol, R., 2005. Automatic
Generation of Seamless Mosaics over Extensive Areas from
High Resolution Imagery. World Multi-Conference on
Systemics, Cybernetics and Informatics (WMSCI). Orlando,
USA.