Model Enforced Post-Process Correction of Satellite Aerosol Retrievals

Lipponen, Antti; Kolehmainen, Ville; Kolmonen, Pekka; Kukkurainen, Antti; Mielonen, Tero; Sabater, Neus; Sogacheva, Larisa; Virtanen, Timo; Arola, Antti

doi:10.5194/amt-2020-229

Cited by 2 publications

(4 citation statements)

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“…The core idea in the model enforced post-process correction model is to improve the accuracy of the approximate retrieval (2) by machine learning techniques Lipponen et al (2020). By Equations ( 1)-( 3), the accurate retrieval can be written as…”

Section: Post-process Correction Model Of Satellite Aerosol Retrievalsmentioning

confidence: 99%

“…In Lipponen et al (2020) we proposed a model enforced machine learning model for post-process correction of satellite aerosol retrievals. The key idea in the model enforced approach is to exploit also the model and information of the conventional retrieval algorithm and train a machine learning algorithm for correction of the approximation error in the result of the conventional satellite retrieval algorithm.…”

Section: Introductionmentioning

confidence: 99%

“…The advantages of the model enforced post-process correction approach are improved accuracy over the existing data products and fully learned machine learning approach, and the possibility to post-process correct existing (past) satellite data products with no need for full recalculation of the retrievals. In Lipponen et al (2020), the model enforced approach was combined with a Random Forest regression algorithm for post-process correction of MODIS AOD and AE products using collocated MODIS and AERONET aerosol data for training the correction model for the approximation error in AOD and AE in the MODIS DT over land product. The post-process correction was found to yield significantly improved accuracy over the MODIS AOD and AE retrievals, and the correction approach resulted in better accuracy retrievals than the fully learned machine learning approach.…”

Section: Introductionmentioning

confidence: 99%

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Deep Learning Based Post-Process Correction of the Aerosol Parameters in the High-Resolution Sentinel-3 Level-2 Synergy Product

Lipponen

Reinvall

Väisänen

et al. 2021

Preprint

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Abstract. Satellite-based aerosol retrievals provide global spatially distributed estimates of atmospheric aerosol parameters that are commonly needed in applications such as estimation of atmospherically corrected satellite data products, climate modeling and air quality monitoring. However, a common feature of the conventional satellite aerosol retrievals is that they have reasonably low spatial resolution and poor accuracy caused by uncertainty in auxiliary model parameters, such as fixed aerosol model parameters, and the approximate forward radiative transfer models utilized to keep the computational complexity feasible. As a result, the improvement and re-processing of the operational satellite data retrieval algorithms would become a tedious and computationally excessive problem. To overcome these problems, we have developed a machine learning-based post-process correction approach to correct the existing operational satellite aerosol data products. Our approach combines the existing satellite retrieval data and a post-processing step where a machine learning algorithm is utilized to predict the approximation error in the conventional retrieval. With approximation error we refer to the discrepancy between the true aerosol parameters and the ones retrieved using the satellite data. Our hypothesis is that the prediction of the approximation error with a finite training data set is a less complex and easier task than the direct fully learned machine learning based prediction in which the aerosol parameters are directly predicted given the satellite observations and measurement geometry. With our approach, there is no need to re-run the existing retrieval algorithms and only a computationally feasible post-processing step is needed. Our approach is based on neural networks trained based on collocated satellite data and accurate ground based AERONET aerosol data. Based on our post-processing approach, we propose a post-process corrected high resolution Sentinel-3 Synergy aerosol product, which gives a spectral estimate of the aerosol optical depth at five different wavelengths with a high spatial resolution equivalent to the native resolution of the Sentinel-3 level-1 data (300 meters at nadir). With aerosol data from Sentinel-3A and 3B satellites, we demonstrate that our approach produces high-resolution aerosol data with better accuracy than the operational Sentinel-3 level-2 Synergy aerosol product or a conventional fully learned machine learning approach.

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Section: Post-process Correction Model Of Satellite Aerosol Retrievalsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Deep Learning Based Post-Process Correction of the Aerosol Parameters in the High-Resolution Sentinel-3 Level-2 Synergy Product

Lipponen

Reinvall

Väisänen

et al. 2021

Preprint

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“…Recent advances in new methods to combine conventional retrieval algorithms and machine learning have significantly improved satellite AOD estimate accuracy (Lipponen et al, 2021(Lipponen et al, , 2022. For example, the post-process correction approach for satellite AOD retrieval uses a machine learning-based model to predict the retrieval error in the satel-lite AOD and uses that prediction to correct the retrieval.…”

Section: Introductionmentioning

confidence: 99%

High-resolution post-process corrected satellite AOD

Taskinen

Väisänen

Hatakka

et al. 2022

Preprint

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Poor air quality poses a great threat to human health. Accurate high-resolution satellite remote sensing of atmospheric aerosols would highly benefit satellite-based air quality estimates. We have developed and validated a post-process correction and downscaling approach for satellite remote sensing of aerosols. We use NASA's Moderate Resolution Imaging Spectroradiometer (MODIS) aerosol optical depth (AOD) over Washington D.C. -Baltimore area during the Distributed Regional Aerosol Gridded Observation Networks (DRAGON) campaign in 2011 to evaluate our approach. We derive and evaluate the AOD fields with high 250 meter resolution. The results show that the post-process correction approach is suitable for deriving downscaled, high-resolution AOD estimates and significantly improves the accuracy of the AOD retrievals.

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Model Enforced Post-Process Correction of Satellite Aerosol Retrievals

Cited by 2 publications

References 11 publications

Deep Learning Based Post-Process Correction of the Aerosol Parameters in the High-Resolution Sentinel-3 Level-2 Synergy Product

Deep Learning Based Post-Process Correction of the Aerosol Parameters in the High-Resolution Sentinel-3 Level-2 Synergy Product

High-resolution post-process corrected satellite AOD

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