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Research on a Partial Aperture Factor Measurement Method for the AGRI Onboard Calibration Assembly

A partial aperture onboard calibration method can solve the onboard calibration problems of some large aperture remote sensors, which is of great significance for the development trend of increasingly large apertures in optical remote sensors. In this paper, the solar diffuser reflectance degradatio...

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Autores principales: Si, Xiaolong, Li, Xiuju, Chen, Hongyao, Bao, Shiwei, Xu, Heyu, Zhang, Liming, Huang, Wenxin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8915028/
https://www.ncbi.nlm.nih.gov/pubmed/35270977
http://dx.doi.org/10.3390/s22051832
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author Si, Xiaolong
Li, Xiuju
Chen, Hongyao
Bao, Shiwei
Xu, Heyu
Zhang, Liming
Huang, Wenxin
author_facet Si, Xiaolong
Li, Xiuju
Chen, Hongyao
Bao, Shiwei
Xu, Heyu
Zhang, Liming
Huang, Wenxin
author_sort Si, Xiaolong
collection PubMed
description A partial aperture onboard calibration method can solve the onboard calibration problems of some large aperture remote sensors, which is of great significance for the development trend of increasingly large apertures in optical remote sensors. In this paper, the solar diffuser reflectance degradation monitor (SDRDM) in the onboard calibration assembly (CA) of the FengYun-4 (FY-4) advanced geostationary radiance imager (AGRI) was used as the reference radiometer. It was designed for measuring the partial aperture factor (PAF) for the AGRI onboard calibration. First, the linear response count variation relationship between the two was established under the same radiance source input. Then, according to the known bidirectional reflection distribution function (BRDF) of the solar diffuser (SD) in the CA, the relative reflectance ratio coefficient between the AGRI observation direction and the SDRDM observation direction was calculated. On this basis, the response count value of the AGRI and the SDRDM was used to realize the high-precision measurement of the PAF of the AGRI B1~B3 bands by simulating the AGRI onboard calibration measurement under the illumination of a solar simulator in the laboratory. According to the determination process of the relevant parameters of the PAF, the measurement uncertainty of the PAF was analyzed; this uncertainty was greater than 2.04% and provided an important reference for the evaluation of the onboard absolute radiometric calibration uncertainty after launch.
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spelling pubmed-89150282022-03-12 Research on a Partial Aperture Factor Measurement Method for the AGRI Onboard Calibration Assembly Si, Xiaolong Li, Xiuju Chen, Hongyao Bao, Shiwei Xu, Heyu Zhang, Liming Huang, Wenxin Sensors (Basel) Article A partial aperture onboard calibration method can solve the onboard calibration problems of some large aperture remote sensors, which is of great significance for the development trend of increasingly large apertures in optical remote sensors. In this paper, the solar diffuser reflectance degradation monitor (SDRDM) in the onboard calibration assembly (CA) of the FengYun-4 (FY-4) advanced geostationary radiance imager (AGRI) was used as the reference radiometer. It was designed for measuring the partial aperture factor (PAF) for the AGRI onboard calibration. First, the linear response count variation relationship between the two was established under the same radiance source input. Then, according to the known bidirectional reflection distribution function (BRDF) of the solar diffuser (SD) in the CA, the relative reflectance ratio coefficient between the AGRI observation direction and the SDRDM observation direction was calculated. On this basis, the response count value of the AGRI and the SDRDM was used to realize the high-precision measurement of the PAF of the AGRI B1~B3 bands by simulating the AGRI onboard calibration measurement under the illumination of a solar simulator in the laboratory. According to the determination process of the relevant parameters of the PAF, the measurement uncertainty of the PAF was analyzed; this uncertainty was greater than 2.04% and provided an important reference for the evaluation of the onboard absolute radiometric calibration uncertainty after launch. MDPI 2022-02-25 /pmc/articles/PMC8915028/ /pubmed/35270977 http://dx.doi.org/10.3390/s22051832 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Si, Xiaolong
Li, Xiuju
Chen, Hongyao
Bao, Shiwei
Xu, Heyu
Zhang, Liming
Huang, Wenxin
Research on a Partial Aperture Factor Measurement Method for the AGRI Onboard Calibration Assembly
title Research on a Partial Aperture Factor Measurement Method for the AGRI Onboard Calibration Assembly
title_full Research on a Partial Aperture Factor Measurement Method for the AGRI Onboard Calibration Assembly
title_fullStr Research on a Partial Aperture Factor Measurement Method for the AGRI Onboard Calibration Assembly
title_full_unstemmed Research on a Partial Aperture Factor Measurement Method for the AGRI Onboard Calibration Assembly
title_short Research on a Partial Aperture Factor Measurement Method for the AGRI Onboard Calibration Assembly
title_sort research on a partial aperture factor measurement method for the agri onboard calibration assembly
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8915028/
https://www.ncbi.nlm.nih.gov/pubmed/35270977
http://dx.doi.org/10.3390/s22051832
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