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Landsat-8 on-orbit and Landsat-9 pre-launch sensor radiometric characterization
Author(s): Brian Markham; Julia Barsi; Matthew Montanaro; Joel McCorkel; Aaron Gerace; Jeffrey Pedelty; Simon Hook; Nina Raqueno; Cody Anderson; Md Obaidul Haque
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Paper Abstract

Landsat-8 has been operating on-orbit for 5+ years. Its two sensors, the Operational Land Imager (OLI) and Thermal Infrared Sensor (TIRS), are continuing to produce high quality data. The OLI has been radiometrically stable at the better than 0.3% level on a band average basis for all but the shortest wavelength (443 nm) band, which has degraded about 1.3% since launch. All on-board calibration devices continue to perform well and consistently. No gaps in across track coverage exist as 100% operability of the detectors is maintained. The variability over time of detector responsivity within a band relative to the average is better than 0.05% (1 sigma), though there are occasional detectors that jump up to 1.5% in response in the Short-Wave InfraRed (SWIR) bands. Signal-to-Noise performance continues at 2-3x better than requirements, with a small degradation in the 443 nm band commensurate with the loss in sensitivity. Pre-launch error analysis, combined with the stability of the OLI indicates that the absolute reflectance calibration uncertainty is better than 3%; comparisons to ground measurements and comparisons to other sensors are consistent with this. The Landsat-8 TIRS is similarly radiometrically stable, showing changes of at most 0.3% over the mission. The uncertainty in the absolute calibration as well as the detector to detector variability are largely driven by the stray light response of TIRS. The current processing corrects most of the stray light effects, resulting in absolute uncertainties of ~1% and reduced striping. Efforts continue to further reduce the striping. Noise equivalent delta temperature is about 50 mK at typical temperatures and 100% detector operability is maintained. Landsat-9 is currently under development with a launch no earlier than December 2020. The nearly identical OLI-2 and upgraded TIRS-2 sensors have completed integration and are in the process of instrument level performance characterization including spectral, spatial, radiometric and geometric testing. Component and assembly level measurements of the OLI-2, which include spectral response, radiometric response and stray light indicate comparable performance to OLI. The first functional tests occurred in July 2018 and spatial performance testing in vacuum is scheduled for August 2018. Similarly, for TIRS-2, partially integrated instrument level testing indicated spectral and spatial responses comparable to TIRS, with stray light reduced by approximately an order of magnitude from TIRS.

Paper Details

Date Published: 23 October 2018
PDF: 14 pages
Proc. SPIE 10781, Earth Observing Missions and Sensors: Development, Implementation, and Characterization V, 1078104 (23 October 2018); doi: 10.1117/12.2324715
Show Author Affiliations
Brian Markham, NASA Goddard Space Flight Ctr. (United States)
Julia Barsi, Science Systems and Applications, Inc. (United States)
Matthew Montanaro, Rochester Institute of Technology (United States)
Joel McCorkel, NASA Goddard Space Flight Ctr. (United States)
Aaron Gerace, Rochester Institute of Technology (United States)
Jeffrey Pedelty, NASA Goddard Space Flight Ctr. (United States)
Simon Hook, NASA Jet Propulsion Lab. (United States)
Nina Raqueno, Rochester Institute of Technology (United States)
Cody Anderson, Earth Resources Observation and Science Ctr. (United States)
Md Obaidul Haque, Stinger Ghaffarian Technologies, Inc. (United States)


Published in SPIE Proceedings Vol. 10781:
Earth Observing Missions and Sensors: Development, Implementation, and Characterization V
Xiaoxiong Xiong; Toshiyoshi Kimura, Editor(s)

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