Global Land Imager (GLI) - An optimised FAPAR algorithm theoretical basis document
This Algorithm Theoretical Basis Document (ATBD) describes an algorithm used to retrieve information on the nature and properties of vegetated terrestrial surfaces from an analysis of Level 1B data to be generated by the Global Land Imager (GLI) on board of the ADEOS-2 platform of the National Space Development Agency of Japan (NASDA). The algorithm takes the form of a spectral index, i.e. a set of formulae, which transform calibrated spectral directional reflectances into a single numerical value. The index has been optimised to assess the presence on the ground of healthy live green vegetation. The optimisation procedure has been constrained to provide an estimate of the Fraction of Absorbed Photosynthetically Active Radiation (FAPAR) in the plant canopy. This algorithm delivers, in addition to the FAPAR product, the so-called rectified reflectance values in the red and near-infrared spectral bands. These are virtual reflectances largely decontaminated from atmospheric and angular effects, which are still depending on the sensor and platform orbital specifications. This document identifies the sources of input data, outlines the physical principles and mathematical background justifying this approach, describes the proposed algorithm, and lists the assumptions and limitations of this technique.
Bibliographic Reference: EUR 20147 EN (2002), pp.19. Euro: Free of charge
Availability: Available from European Commission, JRC Knowledge Management Unit, Ispra (IT) Tel: +39 033278 9843 or +39 033278 9864 Fax: +39 033278 9623 E-mail: firstname.lastname@example.org
Record Number: 200214445 / Last updated on: 2002-02-20
Original language: en
Available languages: en