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DynaBench: A benchmark dataset for learning dynamical systems from low-resolution data (minimal) - MaRDI portal

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DynaBench: A benchmark dataset for learning dynamical systems from low-resolution data (minimal)

From MaRDI portal



DOI10.5281/zenodo.8114098Zenodo8114098MaRDI QIDQ6696993

Dataset published at Zenodo repository.

Author name not available (Why is that?)

Publication date: 17 September 2023

Copyright license: No records found.



Description

This is a minimal version of the DynaBench dataset, containing the first 5% of the data. The full dataset is available at https://professor-x.de/dynabenchAbstract:Previous work on learning physical systems from data has focused on high-resolution grid-structured measurements. However, real-world knowledge of such systems (e.g. weather data) relies on sparsely scattered measuring stations. In this paper, we introduce a novel simulated benchmark dataset, DynaBench, for learning dynamical systems directly from sparsely scattered data without prior knowledge of the equations. The dataset focuses on predicting the evolution of a dynamical system from low-resolution, unstructured measurements. We simulate six different partial differential equations covering a variety of physical systems commonly used in the literature and evaluate several machine learning models, including traditional graph neural networks and point cloud processing models, with the task of predicting the evolution of the system. The proposed benchmark dataset is expected to advance the state of art as an out-of-the-box easy-to-use tool for evaluating models in a setting where only unstructured low-resolution observations are available. The benchmark is available at https://professor-x.de/dynabench.Technical InfoThe dataset is split into 42 parts (6 equations x 7 combinations of resolution/structure). Each part can be downloaded separately and contains 7000 simulations of the given equation at the given resolution and structure. The simulations are grouped into chunks of 500 simulations saved in the hdf5 file format. Each chunk contains the variable "data", where the values of the simulated system are stored, as well as the variable "points", where the coordinates at which the system has been observed are stored. For more details visit the DynaBench website at https://professor-x.de/dynabench/. The dataset is best used as part of the dynabench python package available at https://pypi.org/project/dynabench/.






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