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A Non-Radiative Transfer Approach to Radiometric Vicarious Calibration (2007)

Holekamp, Kara ; Ryan, Robert ; Stanley, Thomas ; [et al.]

In: Other Sources

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Publication Date: 2019-07-19

Description: TOA (top-of-atmosphere) radiance from high-spatial-resolution satellite imagery systems is important for a wide variety of research and applications. Many research initiatives require data with absolute radiometric accuracy better than a few percent. The conversion of satellite digital numbers to radiance depends on accurate radiometric calibration. A common method for determining and validating radiometric calibrations is to rely upon vicarious calibration approaches. Historically, vicarious calibration methods use radiative transfer codes with ground-based atmosphere and surface reflectance or radiance inputs for estimating TOA radiance values. These TOA radiance values are compared against the satellite digital numbers to determine the radiometric calibration. However, the radiative transfer codes used depend on many assumptions about the aerosol properties and the atmospheric point spread function. A measurement-based atmospheric radiance estimation approach for high-spatial-resolution, multispectral, visible/near-infrared sensors is presented that eliminates the use of radiative transfer codes and many of the underlying assumptions. A comparison between the radiative transfer and non-radiative transfer approaches is made.

Keywords: Space Sciences (General)

Type: SSTI-2220-0101 , JACIE 2007 Civil Commercial Imagery Evaluation Workshop; Mar 20, 2007 - Mar 22, 2007; Fairfax, VA; United States

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Radiometric Calibration of the AWiFS Using Vicarious Calibration Techniques (2007)

Pagnutti, Mary ; Holekamp, Kara

In: CASI

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Publication Date: 2019-07-13

Description: A radiometric calibration assessment of the AWiFS (Advanced Wide Field Sensor) on the Indian Remote Sensing Resourcesat-1 satellite was performed by the NASA Applied Research & Technology Project Office (formerly the Applied Sciences Directorate) at the John C. Stennis Space Center. A reflectance-based vicarious calibration approach, requiring ground-based measurements coincident with satellite acquisitions and radiative transfer calculations, was used to estimate at-sensor radiance. The AWiFS is a 4-band, multispectral, moderate-resolution (60 m) imaging sensor that operates in the visible through short-wave infrared spectrum and is currently being considered as a Landsat-like alternative. Several study sites near the Stennis Space Center that attempted to span the dynamic range of the sensor were employed. Satellite at-sensor radiance values were compared to those estimated to determine the sensor's radiometric accuracy. The results of this evaluation provide the user community with an independent assessment of the radiometric accuracy of AWiFS image products, which are commercially available through GeoEye. These results are an extension of an independent assessment made by the University of Arizona Remote Sensing Group, the South Dakota State University Satellite Calibration Group & Image Processing Lab, and the NASA Applied Sciences Directorate at the John C. Stennis Space Center the previous year.

Keywords: Space Sciences (General)

Type: SSTI-2220-0099 , JACIE Civil Commercial Imagery Evaluation Workshop; Mar 20, 2007 - Mar 22, 2007; Fairfax, VA; United States

Format: application/pdf

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