Polarimetric coordinate validation for merging GRASP and AirMSPI FIREX-AQ observations

Traditionally, aerosol retrieval algorithms are customized to specific instruments because of the diverse nature of remote sensing hardware architectures and data formats. This diversity can hinder the utilization of lower-level data products. Furthermore, a generalized aerosol retrieval approach ha...

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Published inJournal of quantitative spectroscopy & radiative transfer Vol. 317; p. 108910
Main Authors DeLeon, Clarissa M., Garay, Michael J., Kalashnikova, Olga V., Kupinski, Meredith K.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2024
Subjects
Aerosol retrieval
AirMSPI
FIREX-AQ
Generalized retrieval of atmosphere and surface properties
MAIA
Multiangle polarimetry
Polarimetric coordinate systems
Polarization
Python
Radiative transfer
FIREX-AQ
Polarization
AirMSPI
Polarimetric coordinate systems
Multiangle polarimetry
Generalized retrieval of atmosphere and surface properties
Radiative transfer
Aerosol retrieval
MAIA
Python
Online AccessGet full text
ISSN0022-4073
1879-1352
1879-1352
DOI10.1016/j.jqsrt.2024.108910

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Abstract Traditionally, aerosol retrieval algorithms are customized to specific instruments because of the diverse nature of remote sensing hardware architectures and data formats. This diversity can hinder the utilization of lower-level data products. Furthermore, a generalized aerosol retrieval approach has the potential to allow simultaneous use of observations from multiple platforms within a single retrieval framework. In this work, a comprehensive set of solutions for integrating open-source aerosol retrieval software and publicly available multiangle spectropolarimetric data products is presented as a complementary software program (CSP). This CSP is adaptable to observations obtained from various instruments, including the Airborne Multiangle Spectropolarimetric Imager (AirMSPI) and the upcoming Multiangle Imager for Aerosols (MAIA) (Diner et al., 2013); (Maia, 2022). Established methods for reconciling coordinate systems, curating data, and structuring data for input to the Generalized Retrieval of Atmosphere and Surface Properties (GRASP) open-source software are addressed by the CSP (Grasp-open, 2023).The CSP provides the functionality to compute multiple GRASP aerosol retrievals from the same polarimetric observations by varying the user-defined coordinate system selection. Each coordinate system is defined by a unique reference plane, which rotates the reported polarization orientation but does not alter the information content. Therefore retrieving aerosol values from different coordinate systems is suggested as a tool for: (1) verifying the coordinate systems of the instrument and algorithm have been properly reconciled and (2) quantifying numerical variations in the retrieval’s optimization algorithm. The CSP is demonstrated using AirMSPI data from the 2019 Fire Influence on Regional to Global Environments and Air Quality (FIREX-AQ) campaign (Diner et al., 2013); (Warneke, 2019). Aerosol retrievals performed with the meridian versus the scattering reference plane differed up to 0.068 in aerosol optical depth and 0.015 in single scattering albedo. These variations in smoke properties from multiangle spectropolarimetric observations quantify uncertainty which is applicable for cross-validation instrument comparisons and studies of different retrieval algorithms. •Polarimetric Geometry Reconciliation Validation Using Two Reference Planes.•Merging Multiangle Polarimetric Data and a Generalized Radiative Transfer Algorithm.•GRASP Aerosol Retrievals of AirMSPI FIREX-AQ Data.•Python Code to Prepare Data for GRASP Input.
AbstractList Traditionally, aerosol retrieval algorithms are customized to specific instruments because of the diverse nature of remote sensing hardware architectures and data formats. This diversity can hinder the utilization of lower-level data products. Furthermore, a generalized aerosol retrieval approach has the potential to allow simultaneous use of observations from multiple platforms within a single retrieval framework. In this work, a comprehensive set of solutions for integrating open-source aerosol retrieval software and publicly available multiangle spectropolarimetric data products is presented as a complementary software program (CSP). This CSP is adaptable to observations obtained from various instruments, including the Airborne Multiangle Spectropolarimetric Imager (AirMSPI) and the upcoming Multiangle Imager for Aerosols (MAIA) (Diner et al., 2013); (Maia, 2022). Established methods for reconciling coordinate systems, curating data, and structuring data for input to the Generalized Retrieval of Atmosphere and Surface Properties (GRASP) open-source software are addressed by the CSP (Grasp-open, 2023).The CSP provides the functionality to compute multiple GRASP aerosol retrievals from the same polarimetric observations by varying the user-defined coordinate system selection. Each coordinate system is defined by a unique reference plane, which rotates the reported polarization orientation but does not alter the information content. Therefore retrieving aerosol values from different coordinate systems is suggested as a tool for: (1) verifying the coordinate systems of the instrument and algorithm have been properly reconciled and (2) quantifying numerical variations in the retrieval’s optimization algorithm. The CSP is demonstrated using AirMSPI data from the 2019 Fire Influence on Regional to Global Environments and Air Quality (FIREX-AQ) campaign (Diner et al., 2013); (Warneke, 2019). Aerosol retrievals performed with the meridian versus the scattering reference plane differed up to 0.068 in aerosol optical depth and 0.015 in single scattering albedo. These variations in smoke properties from multiangle spectropolarimetric observations quantify uncertainty which is applicable for cross-validation instrument comparisons and studies of different retrieval algorithms. •Polarimetric Geometry Reconciliation Validation Using Two Reference Planes.•Merging Multiangle Polarimetric Data and a Generalized Radiative Transfer Algorithm.•GRASP Aerosol Retrievals of AirMSPI FIREX-AQ Data.•Python Code to Prepare Data for GRASP Input.
ArticleNumber 108910
Author Garay, Michael J.
Kalashnikova, Olga V.
Kupinski, Meredith K.
DeLeon, Clarissa M.
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Keywords FIREX-AQ
Polarization
AirMSPI
Polarimetric coordinate systems
Multiangle polarimetry
Generalized retrieval of atmosphere and surface properties
Radiative transfer
Aerosol retrieval
MAIA
Python
Language English
License This is an open access article under the CC BY license.
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Snippet Traditionally, aerosol retrieval algorithms are customized to specific instruments because of the diverse nature of remote sensing hardware architectures and...
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StartPage 108910
SubjectTerms Aerosol retrieval
AirMSPI
FIREX-AQ
Generalized retrieval of atmosphere and surface properties
MAIA
Multiangle polarimetry
Polarimetric coordinate systems
Polarization
Python
Radiative transfer
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Title Polarimetric coordinate validation for merging GRASP and AirMSPI FIREX-AQ observations
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