Abstract
Abstract. This work presents the results of the absolute radiometric calibration of the sensor on-board the “Sistema Satelital de Observación de la Tierra” (SSOT) using the vicarious approach based on in-situ measurements of surface reflectance and atmospheric retrievals. The SSOT mission, also known as FASat-Charlie, has been successfully operating for almost nine years ‒at the time of writing‒, exceeding its five-year nominal design life and providing multispectral and panchromatic imagery for different applications. The data acquired by SSOT has been used for emergency and disaster management and monitoring, cadastral mapping, urban planning, defense purposes, among other uses. In this paper, some results of the efforts conducting to the exploitation of the SSOT imagery for remote sensing quantitative applications are detailed. The results of the assessment of the radiometric calibration of the satellite sensor, performed in the Atacama Desert, Chile, using the data acquired and made available by the Gobabeb Station of Radiometric Calibration Network (RadCalNet), Namibia, are presented. Additionally, we describe the process for obtaining the absolute gains for the multispectral and panchromatic bands of the SSOT sensor by adapting the reflectance−based approach (Thome et al., 2001). The outputs achieved from the Atacama data collection have generated consistent results and average differences in the order of 3% with respect to the RadCalNet TOA reflectances. The presented results are an example of the benefits of having access to the RadCalNet data and how it increases the opportunity of conducting Cal/Val activities using endorsed calibration sites.
Highlights
As it has been widely studied and recognized, the Calibration and Validation (Cal/Val) activities, performed for monitoring and updating the radiometric response of a satellite sensor, are crucial for the achievement of the objectives of a mission and the development of remote sensing quantitative applications (Chander, 2013)
Some Cal/Val tasks have been conducted for the exploration and implementation of calibration methods and protocols for monitoring the New AstroSat Optical Modular Instrument-1 (NAOMI-1), the sensor on board the Sistema Satelital de Observación de la Tierra” (SSOT)
GONA is equipped with a 12-filter CIMEL sunphotometer that operates under the AERONET concept, using a data collection protocol that measures direct and diffuse irradiance, and directional surface reflectance (Bouvet et al, 2019; RadCalNet Working Group (WG), 2019)
Summary
As it has been widely studied and recognized, the Calibration and Validation (Cal/Val) activities, performed for monitoring and updating the radiometric response of a satellite sensor, are crucial for the achievement of the objectives of a mission and the development of remote sensing quantitative applications (Chander, 2013). Depending on the technique, the vicarious approaches can utilize in-situ measurements, namely surface reflectance, radiance or irradiance, and data collected for the estimation of atmospheric retrievals (Slater et al, 1987). In this regard, some Cal/Val tasks have been conducted for the exploration and implementation of calibration methods and protocols for monitoring the New AstroSat Optical Modular Instrument-1 (NAOMI-1), the sensor on board the SSOT.
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