2017
DOI: 10.5194/amt-10-4079-2017
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Aerosol-type retrieval and uncertainty quantification from OMI data

Abstract: Abstract. We discuss uncertainty quantification for aerosoltype selection in satellite-based atmospheric aerosol retrieval. The retrieval procedure uses precalculated aerosol microphysical models stored in look-up tables (LUTs) and top-of-atmosphere (TOA) spectral reflectance measurements to solve the aerosol characteristics. The forward model approximations cause systematic differences between the modelled and observed reflectance. Acknowledging this model discrepancy as a source of uncertainty allows us to p… Show more

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Cited by 13 publications
(13 citation statements)
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“…ADV algorithm provides a per-pixel AOD uncertainty estimate based on the propagation of the assumed 5 % uncertainty in the measured reflectance through the retrieval . This uncertainty estimate does not include sampling and smoothing uncertainties, uncertainties related to the selection of the best-fit aerosol model (Kauppi et al, 2017), or uncertainties related to the cloud screening. In this work we study the additional collocation mismatch uncertainty related to the validation against AERONET.…”
Section: Adv Algorithmmentioning
confidence: 99%
“…ADV algorithm provides a per-pixel AOD uncertainty estimate based on the propagation of the assumed 5 % uncertainty in the measured reflectance through the retrieval . This uncertainty estimate does not include sampling and smoothing uncertainties, uncertainties related to the selection of the best-fit aerosol model (Kauppi et al, 2017), or uncertainties related to the cloud screening. In this work we study the additional collocation mismatch uncertainty related to the validation against AERONET.…”
Section: Adv Algorithmmentioning
confidence: 99%
“…The ADV algorithm is originally based on the work by Veefkind and de Leeuw (1998), and the current version is described by Kolmonen et al (2016). The algorithm uses the AATSR stereo view to remove the surface reflectance contribution from the TOA reflectance and retrieves the best-fit aerosol model and AOD value using inversion techniques.…”
Section: Adv Algorithmmentioning
confidence: 99%
“…The postprocessing is based on thresholds on the local AOD variability (standard deviation of AOD) and the number of neighboring cloud-free pixels in a 3 × 3 pixels area (Sogacheva et al, 2017). ADV algorithm provides a per-pixel AOD uncertainty estimate based on the propagation of the assumed 5 % uncertainty in the measured reflectance through the retrieval (Kolmonen et al, 2016). This uncertainty estimate does not include sampling and smoothing uncertainties, uncertainties related to the selection of the best-fit aerosol model (Kauppi et al, 2017), or uncertainties related to the cloud screening.…”
Section: Adv Algorithmmentioning
confidence: 99%
“…ADV algorithm provides a per-pixel AOD uncertainty estimate based on the propagation of the assumed 5 % uncertainty in the measured reflectance through the retrieval (Kolmonen et al, 2016). This uncertainty estimate does not include sampling and smoothing uncertainties, uncertainties related to the selection of the best-fit aerosol model (Kauppi et al, 2017), or uncertainties related to the cloud screening. In this work we study the additional collocation mismatch uncertainty related to the validation against AERONET.…”
Section: Adv Algorithmmentioning
confidence: 99%
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