Exploration of machine learning methods for the classification of infrared limb spectra of polar stratospheric clouds

Exploration of machine learning methods for the classification of infrared limb spectra of polar stratospheric clouds

<p>Polar stratospheric clouds (PSCs) play a key role in polar ozone depletion in the stratosphere. Improved observations and continuous monitoring of PSCs can help to validate and improve chemistry–climate models that are used to predict the evolution of the polar ozone hole. In this paper, we...

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Main Authors: R. Sedona, L. Hoffmann, R. Spang, G. Cavallaro, S. Griessbach, M. Höpfner, M. Book, M. Riedel
Format: Article
Language:English
Published: Copernicus Publications 2020-07-01
Series:Atmospheric Measurement Techniques
Online Access:https://www.atmos-meas-tech.net/13/3661/2020/amt-13-3661-2020.pdf
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spelling doaj-86e8709bbf9a47ebb0cdf3f30cc256f32020-11-25T03:28:49ZengCopernicus PublicationsAtmospheric Measurement Techniques1867-13811867-85482020-07-01133661368210.5194/amt-13-3661-2020Exploration of machine learning methods for the classification of infrared limb spectra of polar stratospheric cloudsR. Sedona0R. Sedona1L. Hoffmann2R. Spang3G. Cavallaro4S. Griessbach5M. Höpfner6M. Book7M. Riedel8M. Riedel9Jülich Supercomputing Centre (JSC), Forschungszentrum Jülich, Jülich, GermanySchool of Engineering and Natural Sciences, University of Iceland, Reykjavík, IcelandJülich Supercomputing Centre (JSC), Forschungszentrum Jülich, Jülich, GermanyInstitut für Energie- und Klimaforschung (IEK-7), Forschungszentrum Jülich, Jülich, GermanyJülich Supercomputing Centre (JSC), Forschungszentrum Jülich, Jülich, GermanyJülich Supercomputing Centre (JSC), Forschungszentrum Jülich, Jülich, GermanyInstitut für Meteorlogie und Klimaforschung, Karlsruher Institut für Technologie, Karlsruhe, GermanySchool of Engineering and Natural Sciences, University of Iceland, Reykjavík, IcelandJülich Supercomputing Centre (JSC), Forschungszentrum Jülich, Jülich, GermanySchool of Engineering and Natural Sciences, University of Iceland, Reykjavík, Iceland<p>Polar stratospheric clouds (PSCs) play a key role in polar ozone depletion in the stratosphere. Improved observations and continuous monitoring of PSCs can help to validate and improve chemistry–climate models that are used to predict the evolution of the polar ozone hole. In this paper, we explore the potential of applying machine learning (ML) methods to classify PSC observations of infrared limb sounders. Two datasets were considered in this study. The first dataset is a collection of infrared spectra captured in Northern Hemisphere winter 2006/2007 and Southern Hemisphere winter 2009 by the Michelson Interferometer for Passive Atmospheric Sounding (MIPAS) instrument on board the European Space Agency's (ESA) Envisat satellite. The second dataset is the cloud scenario database (CSDB) of simulated MIPAS spectra. We first performed an initial analysis to assess the basic characteristics of the CSDB and to decide which features to extract from it. Here, we focused on an approach using brightness temperature differences (BTDs). From both the measured and the simulated infrared spectra, more than 10&thinsp;000 BTD features were generated. Next, we assessed the use of ML methods for the reduction of the dimensionality of this large feature space using principal component analysis (PCA) and kernel principal component analysis (KPCA) followed by a classification with the support vector machine (SVM). The random forest (RF) technique, which embeds the feature selection step, has also been used as a classifier. All methods were found to be suitable to retrieve information on the composition of PSCs. Of these, RF seems to be the most promising method, being less prone to overfitting and producing results that agree well with established results based on conventional classification methods.</p>https://www.atmos-meas-tech.net/13/3661/2020/amt-13-3661-2020.pdf
collection DOAJ
language English
format Article
sources DOAJ
author R. Sedona
R. Sedona
L. Hoffmann
R. Spang
G. Cavallaro
S. Griessbach
M. Höpfner
M. Book
M. Riedel
M. Riedel
spellingShingle R. Sedona
R. Sedona
L. Hoffmann
R. Spang
G. Cavallaro
S. Griessbach
M. Höpfner
M. Book
M. Riedel
M. Riedel
Exploration of machine learning methods for the classification of infrared limb spectra of polar stratospheric clouds
Atmospheric Measurement Techniques
author_facet R. Sedona
R. Sedona
L. Hoffmann
R. Spang
G. Cavallaro
S. Griessbach
M. Höpfner
M. Book
M. Riedel
M. Riedel
author_sort R. Sedona
title Exploration of machine learning methods for the classification of infrared limb spectra of polar stratospheric clouds
title_short Exploration of machine learning methods for the classification of infrared limb spectra of polar stratospheric clouds
title_full Exploration of machine learning methods for the classification of infrared limb spectra of polar stratospheric clouds
title_fullStr Exploration of machine learning methods for the classification of infrared limb spectra of polar stratospheric clouds
title_full_unstemmed Exploration of machine learning methods for the classification of infrared limb spectra of polar stratospheric clouds
title_sort exploration of machine learning methods for the classification of infrared limb spectra of polar stratospheric clouds
publisher Copernicus Publications
series Atmospheric Measurement Techniques
issn 1867-1381
1867-8548
publishDate 2020-07-01
description <p>Polar stratospheric clouds (PSCs) play a key role in polar ozone depletion in the stratosphere. Improved observations and continuous monitoring of PSCs can help to validate and improve chemistry–climate models that are used to predict the evolution of the polar ozone hole. In this paper, we explore the potential of applying machine learning (ML) methods to classify PSC observations of infrared limb sounders. Two datasets were considered in this study. The first dataset is a collection of infrared spectra captured in Northern Hemisphere winter 2006/2007 and Southern Hemisphere winter 2009 by the Michelson Interferometer for Passive Atmospheric Sounding (MIPAS) instrument on board the European Space Agency's (ESA) Envisat satellite. The second dataset is the cloud scenario database (CSDB) of simulated MIPAS spectra. We first performed an initial analysis to assess the basic characteristics of the CSDB and to decide which features to extract from it. Here, we focused on an approach using brightness temperature differences (BTDs). From both the measured and the simulated infrared spectra, more than 10&thinsp;000 BTD features were generated. Next, we assessed the use of ML methods for the reduction of the dimensionality of this large feature space using principal component analysis (PCA) and kernel principal component analysis (KPCA) followed by a classification with the support vector machine (SVM). The random forest (RF) technique, which embeds the feature selection step, has also been used as a classifier. All methods were found to be suitable to retrieve information on the composition of PSCs. Of these, RF seems to be the most promising method, being less prone to overfitting and producing results that agree well with established results based on conventional classification methods.</p>
url https://www.atmos-meas-tech.net/13/3661/2020/amt-13-3661-2020.pdf
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