<div class="csl-bib-body">
<div class="csl-entry">Pan, Y., Kłopotek, G., Crocetti, L., Weinacker, R., Sturn, T., See, L., Dick, G., Möller, G., Rothacher, M., McCallum, I., Navarro, V., & Soja, B. (2024). Determination of high-precision tropospheric delays using crowdsourced smartphone GNSS data. <i>Atmospheric Measurement Techniques</i>, <i>17</i>(14), 4303–4316. https://doi.org/10.5194/amt-17-4303-2024</div>
</div>
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dc.identifier.issn
1867-1381
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dc.identifier.uri
http://hdl.handle.net/20.500.12708/199251
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dc.description.abstract
The Global Navigation Satellite System (GNSS) is a key asset for tropospheric monitoring. Currently, GNSS meteorology relies primarily on geodetic-grade stations. However, such stations are too costly to be densely deployed, which limits the contribution of GNSS to tropospheric monitoring. In 2016, Google released the raw GNSS measurement application programming interface for smartphones running on Android version 7.0 and higher. Given that nowadays there are billions of Android smartphones worldwide, utilizing those devices for atmospheric monitoring represents a remarkable scientific opportunity. In this study, smartphone GNSS data collected in Germany as part of the Application of Machine Learning Technology for GNSS IoT Data Fusion (CAMALIOT) crowdsourcing campaign in 2022 were utilized to investigate this idea. Approximately 20 000 raw GNSS observation files were collected there during the campaign. First, a dedicated data processing pipeline was established that consists of two major parts: machine learning (ML)-based data selection and ionosphere-free precise point positioning (PPP)-based zenith total delay (ZTD) estimation. The proposed method was validated with a dedicated smartphone data collection experiment conducted on the rooftop of the ETH campus. The results confirmed that ZTD estimates of millimeter-level precision could be achieved with smartphone data collected in an open-sky environment. The impacts of observation time span and utilization of multi-GNSS observations on ZTD estimation were also investigated. Subsequently, the crowdsourced data from Germany were processed by PPP with the ionospheric delays interpolated using observations from surrounding satellite positioning service of the German National Survey (SAPOS) GNSS stations. The ZTDs derived from ERA5 and an ML-based ZTD product served as benchmarks. The results revealed that an accuracy of better than 10 mm can be achieved by utilizing selected high-quality crowdsourced smartphone data. This study demonstrates high-precision ZTD determination with crowdsourced smartphone GNSS data and reveals success factors and current limitations.
en
dc.language.iso
en
-
dc.publisher
COPERNICUS GESELLSCHAFT MBH
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dc.relation.ispartof
Atmospheric Measurement Techniques
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dc.subject
GNSS
en
dc.subject
Smartphones
en
dc.subject
Troposphere
en
dc.title
Determination of high-precision tropospheric delays using crowdsourced smartphone GNSS data
en
dc.type
Article
en
dc.type
Artikel
de
dc.contributor.affiliation
ETH Zurich, Switzerland
-
dc.contributor.affiliation
ETH Zurich, Switzerland
-
dc.contributor.affiliation
ETH Zurich, Switzerland
-
dc.contributor.affiliation
International Institute for Applied Systems Analysis, Austria
-
dc.contributor.affiliation
International Institute for Applied Systems Analysis, Austria
-
dc.contributor.affiliation
International Institute for Applied Systems Analysis, Austria
-
dc.contributor.affiliation
Helmholtz Centre Potsdam - GFZ German Research Centre for Geosciences, Germany
-
dc.contributor.affiliation
ETH Zurich, Switzerland
-
dc.contributor.affiliation
International Institute for Applied Systems Analysis, Austria
-
dc.contributor.affiliation
European Space Astronomy Centre, Spain
-
dc.contributor.affiliation
ETH Zurich, Switzerland
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dc.description.startpage
4303
-
dc.description.endpage
4316
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dc.type.category
Original Research Article
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tuw.container.volume
17
-
tuw.container.issue
14
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tuw.journal.peerreviewed
true
-
tuw.peerreviewed
true
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wb.publication.intCoWork
International Co-publication
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tuw.researchTopic.id
C4
-
tuw.researchTopic.id
X1
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tuw.researchTopic.id
C6
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tuw.researchTopic.name
Mathematical and Algorithmic Foundations
-
tuw.researchTopic.name
Beyond TUW-research foci
-
tuw.researchTopic.name
Modeling and Simulation
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tuw.researchTopic.value
30
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tuw.researchTopic.value
50
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tuw.researchTopic.value
20
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dcterms.isPartOf.title
Atmospheric Measurement Techniques
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tuw.publication.orgunit
E120-04 - Forschungsbereich Höhere Geodäsie
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tuw.publisher.doi
10.5194/amt-17-4303-2024
-
dc.identifier.eissn
1867-8548
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dc.description.numberOfPages
14
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tuw.author.orcid
0000-0003-3394-6276
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tuw.author.orcid
0000-0001-7854-7055
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tuw.author.orcid
0000-0003-2538-4111
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tuw.author.orcid
0000-0002-2665-7065
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tuw.author.orcid
0000-0002-6153-3084
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tuw.author.orcid
0000-0002-7381-3470
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tuw.author.orcid
0000-0002-7010-2147
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wb.sci
true
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wb.sciencebranch
Geodäsie, Vermessungswesen
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wb.sciencebranch
Informatik
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wb.sciencebranch
Physische Geographie
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wb.sciencebranch.oefos
2074
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wb.sciencebranch.oefos
1020
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wb.sciencebranch.oefos
1054
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wb.sciencebranch.value
70
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item.grantfulltext
none
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http://purl.org/coar/resource_type/c_2df8fbb1
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research article
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Publications
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no Fulltext
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item.languageiso639-1
en
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crisitem.author.dept
ETH Zurich
-
crisitem.author.dept
ETH Zurich
-
crisitem.author.dept
E120-01-2 - Forschungsgruppe Klima- und Umweltfernerkundung
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crisitem.author.dept
International Institute for Applied Systems Analysis
-
crisitem.author.dept
E186 - Institut für Computergraphik und Algorithmen
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crisitem.author.dept
International Institute for Applied Systems Analysis
-
crisitem.author.dept
Helmholtz Centre Potsdam - GFZ German Research Centre for Geosciences
-
crisitem.author.dept
E120-04 - Forschungsbereich Höhere Geodäsie
-
crisitem.author.dept
ETH Zurich
-
crisitem.author.dept
E017 - Continuing Education Center
-
crisitem.author.dept
European Space Astronomy Centre
-
crisitem.author.dept
E101 - Institut für Analysis und Scientific Computing