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Landsat Calibration & Validation

While Landsat satellites are well-designed and calibrated prior to launch, continuous recalibration is required to offset degradation that may be caused by mechanical or electrical effects, or exposure to UV radiation. Calibration requires a comparison between the measuring instrument and an “absolute” reference standard of known accuracy. 

Radiometric Characterization and Calibration

Reflectance, radiance, and atmospheric conditions all affect the digital number (DN) values of Landsat data. Radiometric calibration employs algorithms and processes that improve Landsat data. This is done by converting the DN values of the data to spectral radiance (at the sensor), and then to reflectance (also at the sensor). This is followed by the removal of atmospheric effects, which are due to absorption and scattering, to perform atmospheric correction (reflectance at the surface). The Landsat 8 and Landsat 9 Data Users Handbooks also provide more information on radiometric characterization and calibration. 

 

ECCOE Test Sites Catalog

The ECCOE Test Sites Catalog contains prime candidate worldwide test sites for the calibration and post-launch characterization of space-based optical imaging sensors.

Test Sites Catalog July 2021

The Catalog also includes pseudo invariant calibration sites (PICS), which are considered benchmarks for on-orbit calibration, since they are essentially invariant over time; are spatially very uniform and have stable spectral response over time; the atmospheric effects on upwelling radiance is minimal due to high surface reflectance; and are in regions where rainfall is limited, preventing vegetative growth and very sparse human populations. 

(Ref: Absolute Calibration of Optical Satellite Sensors Using Libya 4 Pseudo Invariant Calibration Site, Remote Sensing 2014, 6(2), 1327-1346; doi:10.3390/rs6021327.)  

 

Example of a Landsat 8 Calibration Parameter File
Example of a Landsat 8 Calibration Parameter File.

 

Calibration Parameter Files

Calibration Parameter Files (CPFs) provide radiometric and geometric coefficients needed for processing of raw, uncorrected Landsat image data. Each timeframe-specific CPF contains calibration coefficients that have been adjusted to correct for the time varying performance of the sensor.

The Calibration Parameter File page allows the searching and downloading of CPFs specific to each Landsat sensor, and displays definition documents and notices about changes that affect the files.

 

 

Response Linearization Look Up Tables 

Response Linearization Look Up Tables (RLUT) are optional additional files that accompany Landsat 8 and Landsat 9 Calibration Parameter Files (CPF) and contain a mapping look up table to linearize the output of the OLI detectors.
 

Bias Parameter Files 

Bias Parameter Files (BPF) are available for Landsat 8 and Landsat 9. BPFs supply radiometric correction parameters during Level-1 processing of Landsat 8 and Landsat 9 data products.
 

 

Landsat Geometric Validation

Validating the geometric accuracy of Landsat data incorporates the known processing levels, the root-mean-square error (RMSE) information, and the use of Ground Control Points. 

 

Landsat Geometry

Accurate geometry ensures that Landsat data pixels are aligned, and that the data can be used easily in time series analysis. The exceptional geometry of Landsat 8 OLI/TIRS data is used to improve the reference database used to precisely and accurately geolocate all Landsat Level-1 data products. Landsat Science products inherit the geometry of Landsat Level-1 data. 

 

Ground Control Points (GCPs)

GCPs are points on the surface of the Earth of known location, used to geo-reference Landsat Level-1 imagery. GCPs are updated as needed to continually improve Landsat data. GCPs can be downloaded and used as reference data. Visit the GCP page to learn more.

 

Levels of Processing 

To assure Landsat Level-1 data are suitable for time-series analysis, products need to be co-registered. The root-mean-square error (RMSE) reported in the metadata (MTL.txt) file can be used to filter the precision and terrain corrected Level-1 data products to meet application specific requirements. Landsat processing levels and their accuracies are listed on the Levels of Processing page. 

 

Additional Files and Data Useful in Landsat Calibration/Validation

 

Solar Illumination and Sensor Viewing Angle Coefficient Files

Solar Illumination and Sensor Viewing Angle Coefficient Files

Definitive Ephemeris

Definitive Ephemeris

Landsat TM "no-Payload Correction" Data (PCD)

Landsat TM "no-Payload Correction" Data (PCD)

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