Uncertainties in albedo derived from geostationary and polar orbiting satellite data

Author

Van Leeuwen, Willem J D ; Roujean, Jean-Louis ; Lacaze, Roselyne

Author_Institution

GMME/CNRM, Toulouse, France

Volume

4

fYear

2001

fDate

2001

Firstpage

1823

Abstract

This investigation evaluated the uncertainties in albedo derived from geostationary and polar orbiting optical sensors with emphasis on the spectral characteristics, angular sampling and atmospheric correction issues. Albedo simulations were achieved by using satellite orbital models and the SAIL code to produce synthetic bidirectional reflectance data sets for a range of vegetation canopies. Among the list of BRDF model candidates for operational use, two BRDF models were inverted with the simulated data of MSG, AVHRR and MSG-AVHRR combined. The values of retrieved model coefficients were used to derive spectral albedo. The synergistic use of data from different sensors raised issues related to the differences in spectral bands, atmospheric effects, and the assumption of the reciprocity principle

Keywords

albedo; geophysical techniques; remote sensing; AVHRR data; BRDF model candidates; MSG data; MSG-AVHRR data; SAIL code; albedo; angular sampling; atmospheric correction issues; atmospheric effects; geostationary orbiting optical sensors; polar orbiting optical sensors; reciprocity principle; retrieved model coefficients; spectral bands; spectral characteristics; synthetic bidirectional reflectance data sets; vegetation canopies; Atmospheric modeling; Bidirectional control; Reflectivity; Sampling methods; Satellites; Soil; Spatial resolution; Sun; Uncertainty; Vegetation mapping;

fLanguage

English

Publisher

ieee

Conference_Titel

Geoscience and Remote Sensing Symposium, 2001. IGARSS '01. IEEE 2001 International

Conference_Location

Sydney, NSW

Print_ISBN

0-7803-7031-7

Type

conf

DOI

10.1109/IGARSS.2001.977084

Filename

977084