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Atmospheric monitoring with GNSS IoT data fusion based on machine learning
(2021)AGU Fall Meeting AbstractsConference Poster -
Deep CNNs and Adversarial Regularization for Fatigue Damage Failure Prediction of Concrete Anchors
(2020)Fatigue experiments present with large scatter even for identical specimens tested under controlled laboratory conditions. It has long been known that variations in the mechanical behavior of fatigued metals occur, such as hardening or softening and variations on the shape of hysteresis curves. In order to incorporate measurements in the fatigue life prediction of concrete anchors, a fully data-driven model, using load-displacement and ...Conference Poster -
Monitoring Rock Slope Instabilities Using Frequency Domain Decomposition Modal Analysis
(2021)Conference Poster -
Machine learning based modelling of tropospheric parameters with GNSS enhanced by meteorological data
(2022)Conference Poster -
CAMALIOT - Application of Machine Learning Technology for IoT Data Fusion
(2022)Conference Poster -
Life cycle optimization of power generation and transmission expansion planning
(2023)Conference Poster -
Determination of atmospheric parameters from globally crowdsourced GNSS data
(2022)AGU Fall Meeting AbstractsAccessibility to raw GNSS measurements in Android smartphones has opened new potential applications in geosciences. Nowadays, there are more than 3 billion Android devices in use, with the most recent ones equipped with multi-constellation and multi-frequency GNSS receivers. Exploiting such smartphone GNSS data on a global scale has so far not been possible due to a lack of suitable data sets. In the framework of the CAMALIOT project ...Conference Poster -
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Radiocarbon and Stable Isotope Constraints on the Sources and Cycling of Organic Carbon in Mackenzie Delta Lakes
(2022)EGUsphereConference Poster -
How does silica affect Fe(II)-catalysed transformation of ferrihydrite and lepidocrocite?
(2020)EGUsphereFerric iron (Fe(III)) minerals, such as ferrihydrite and lepidocrocite, can be reduced to ferrous iron (Fe(II)) through microbial reductive dissolution under reducing soil conditions, to form dissolved Fe(II) or mixed Fe(II)-Fe(III) mineral phases. The dissolved Fe(II) catalyses iron mineral transformation to more crystalline iron phases. Silica (Si), in the form of silicic acid, is an ubiquitous component of natural soil solutions and ...Conference Poster