DocumentCode
1035364
Title
Scene-based spectral response function shape discernibility for the APEX imaging spectrometer
Author
Brazile, Jason ; Neville, Robert A. ; Staenz, Karl ; Schläpfer, Daniel ; Sun, Lixin ; Itten, Klaus I.
Author_Institution
Remote Sensing Labs, Zurich Univ.
Volume
3
Issue
3
fYear
2006
fDate
7/1/2006 12:00:00 AM
Firstpage
414
Lastpage
418
Abstract
Scene-based spectrometer calibration is becoming increasingly interesting due to the decreasing cost of computing resources as compared with laboratory calibration costs. Three of the most important instrument parameters needed for deriving surface reflectance products are per-band bandwidths, i.e., full-width at half-maximum, band centers, and spectral response function (SRF) shape. Methods for scene-based bandwidth and band center retrieval based on curve matching in the spectral regions near well-known solar and atmospheric absorption features have been investigated with satisfying results. The goal of this work is to establish the feasibility of per-band SRF shape discernibility. To this end, at-sensor radiances in multiple application configurations have been modeled using Moderate-Resolution Atmospheric Transmission (MODTRAN) 4 configured for the currently being built Airborne Prism Experiment (APEX) imaging spectrometer in its unbinned configuration (i.e., optimized for spectral resolution). To establish SRF shape discernment feasibility, per-band MODTRAN 4 spectral "filter response function" files have been generated for five common theoretical shapes using APEX nominal bandwidth and band center specifications and are provided as MODTRAN 4 input for the instrument model. In several application configurations, the typically used Gaussian SRF is used as reference and compared with radiances resulting from hypothetical instruments based on the four other shapes to detect differences in selected spectral subsets or "windows" near well-known Fraunhofer features. A relative root-mean-square metric is used to show that discernment in some cases is directly feasible, and in others, feasible if noise reduction techniques (e.g., along-track averaging of homogeneous targets) are possible
Keywords
atmospheric measuring apparatus; atmospheric techniques; calibration; remote sensing; spectrometers; APEX imaging spectrometer; Airborne Prism Experiment; MODTRAN 4; Moderate-Resolution Atmospheric Transmission; SRF shape discernibility; atmospheric absorption feature; curve matching; hyperspectral imaging; noise reduction; scene-based bandwidth; scene-based spectral response function; solar absorption feature; spectrometer calibration; surface reflectance products; Absorption; Atmospheric modeling; Bandwidth; Calibration; Costs; Instruments; Laboratories; Reflectivity; Shape; Spectroscopy; Airborne Prism Experiment (APEX); MODTRAN; calibration; hyperspectral;
fLanguage
English
Journal_Title
Geoscience and Remote Sensing Letters, IEEE
Publisher
ieee
ISSN
1545-598X
Type
jour
DOI
10.1109/LGRS.2006.873873
Filename
1658017
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