D. Schneider. Software, (2025)Related to: D. Schneider. "Flexible and Efficient Data Mapping for Simulation of Coupled Problems". Dissertation. University of Stuttgart, 2026.
D. Schneider. Software, (2025)Related to: D. Schneider. "Flexible and Efficient Data Mapping for Simulation of Coupled Problems". Dissertation. University of Stuttgart, 2026.
D. Schneider. Software, (2025)Related to: D. Schneider. "Flexible and Efficient Data Mapping for Simulation of Coupled Problems". Dissertation. University of Stuttgart, 2026.
D. Schneider. Software, (2025)Related to: D. Schneider. "Flexible and Efficient Data Mapping for Simulation of Coupled Problems". Dissertation. University of Stuttgart, 2026.
J. Pelzer. Dataset, (2025)Related to: Pelzer, Julia and Verburg, Corné and Heinlein, Alexander and Schulte, Miriam. "Few-Shot Learning by Explicit Physics Integration: An Application to Groundwater Heat Transport". 2025. Submitted.
J. Pelzer. Dataset, (2025)Related to: Pelzer, Julia and Verburg, Corné and Heinlein, Alexander and Schulte, Miriam. "Few-Shot Learning by Explicit Physics Integration: An Application to Groundwater Heat Transport". 2025. Submitted.
J. Pelzer, and C. Verburg. Dataset, (2025)Related to: Pelzer, Julia and Verburg, Corné and Heinlein, Alexander and Schulte, Miriam. "Few-Shot Learning by Explicit Physics Integration: An Application to Groundwater Heat Transport". 2025. Submitted.
J. Pelzer. Dataset, (2025)Related to: Pelzer, Julia and Verburg, Corné and Heinlein, Alexander and Schulte, Miriam. "Few-Shot Learning by Explicit Physics Integration: An Application to Groundwater Heat Transport". 2025. Submitted.
J. Pelzer. Dataset, (2025)Related to: Pelzer, Julia and Verburg, Corné and Heinlein, Alexander and Schulte, Miriam. "Few-Shot Learning by Explicit Physics Integration: An Application to Groundwater Heat Transport". 2025. Submitted.
D. Schneider, and B. Uekermann. Software, (2024)Related to: D. Schneider and B. Uekermann, "Efficient Partition-of-Unity Radial-Basis Function Interpolation for Coupled Problems", SIAM Journal on Scientific Computing, (Accepted), 2024.
J. Pelzer. Dataset, (2024)Related to: Johanna Trick. "Erweiterung eines Convolutional Neural Network auf 3D zur Modellierung von Grundwasserwärmepumpen". Bachelor Thesis (2024). (unpublished).
D. Schneider, M. Yurt, F. Simonis, and B. Uekermann. Software, (2024)Related to: David Schneider, Muhammed Kürşat Yurt, Frédéric Simonis and Benjamin Uekermann. "ASTE: An artificial solver testing environment for partitioned coupling with preCICE." Journal of Open Source Software, 9(103), 7127. doi: 10.21105/joss.07127.
J. Pelzer. Dataset, (2024)Related to: Miliczek, Pascal. "Rotational Equivariance in Convolutional Neural Networks (CNNs) for Modelling Heat Plumes of Heat Pumps in Groundwater". Bachelor Thesis (2024). doi: 10.18419/opus-15412.
J. Pelzer. Dataset, (2024)Related to: Pelzer, Julia and Verburg, Corné and Heinlein, Alexander and Schulte, Miriam. "Few-Shot Learning by Explicit Physics Integration: An Application to Groundwater Heat Transport". 2025. Submitted.
J. Pelzer. Dataset, (2024)Related to: Pelzer, Julia, and Miriam Schulte. "Scalable Machine Learning Approach for Heat Transport in Groundwater". In proceedings of 23rd International Conference of Machine Learning and Applications (2024). In progress.
