The role of field spectroscopy in airborne sensor calibration: the example of the NERC CASI
The role of field spectroscopy in airborne sensor calibration: the example of the NERC CASI
This paper reports on a preliminary experiment to undertake in-flight radiance calibration validation (cal-val) of the NERC CASI. The approach involved comparing CASI radiance values of a single, well characterised target with synchronised measurements of target radiance obtained at the ground with a calibrated spectroradiometer. CASI data were obtained at two altitudes: 853m and 3109m, in spatial mode using the default vegetation band-set. For the lower altitude image, there was very good agreement between the image and ground-measured radiance especially in bands 4 to 6 (670nm-710nm). An atmospheric correction based on the multi-height image data significantly improved the image versus ground comparison for bands 1 to 3, where scattering dominates. However, the correction performed less well for the two NIR bands coincident with the atmospheric absorption regions (band 9 at 762nm and band 13 at 940nm). For the asphalt target, estimating radiance from spectral reflectance measured post-flight combined with spectral irradiance measured during the flights was found to be a viable alternative to measuring radiance. Overall, the results suggest the method could be developed further to provide in-flight calibration validation of the CASI to supplement or replace the mid-season laboratory calibration.
Rollin, E.M.
32665285-7f95-40a4-9775-7a9b2958f758
Milton, E.J.
c447d4a7-b6ee-4782-a205-f240e3f5488b
Anderson, K.
ef4598bc-7bac-4a63-8d41-ec30d6cfd2b6
2002
Rollin, E.M.
32665285-7f95-40a4-9775-7a9b2958f758
Milton, E.J.
c447d4a7-b6ee-4782-a205-f240e3f5488b
Anderson, K.
ef4598bc-7bac-4a63-8d41-ec30d6cfd2b6
Rollin, E.M., Milton, E.J. and Anderson, K.
(2002)
The role of field spectroscopy in airborne sensor calibration: the example of the NERC CASI.
Proceedings of a conference on Field Spectral Measurements in Remote Sensing, University of Southampton.
15 - 16 Apr 2002.
21 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
This paper reports on a preliminary experiment to undertake in-flight radiance calibration validation (cal-val) of the NERC CASI. The approach involved comparing CASI radiance values of a single, well characterised target with synchronised measurements of target radiance obtained at the ground with a calibrated spectroradiometer. CASI data were obtained at two altitudes: 853m and 3109m, in spatial mode using the default vegetation band-set. For the lower altitude image, there was very good agreement between the image and ground-measured radiance especially in bands 4 to 6 (670nm-710nm). An atmospheric correction based on the multi-height image data significantly improved the image versus ground comparison for bands 1 to 3, where scattering dominates. However, the correction performed less well for the two NIR bands coincident with the atmospheric absorption regions (band 9 at 762nm and band 13 at 940nm). For the asphalt target, estimating radiance from spectral reflectance measured post-flight combined with spectral irradiance measured during the flights was found to be a viable alternative to measuring radiance. Overall, the results suggest the method could be developed further to provide in-flight calibration validation of the CASI to supplement or replace the mid-season laboratory calibration.
Text
Rollin_etal_2002.pdf
- Other
More information
Published date: 2002
Additional Information:
CD-ROM
Venue - Dates:
Proceedings of a conference on Field Spectral Measurements in Remote Sensing, University of Southampton, 2002-04-15 - 2002-04-16
Identifiers
Local EPrints ID: 6176
URI: http://eprints.soton.ac.uk/id/eprint/6176
PURE UUID: 5fb77bfa-20d7-44eb-b177-bf03c9a6f8cc
Catalogue record
Date deposited: 14 Jun 2004
Last modified: 15 Mar 2024 04:47
Export record
Contributors
Author:
E.M. Rollin
Author:
E.J. Milton
Author:
K. Anderson
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics