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Learning Dissipative Dynamics in Chaotic Systems (Datasets) - MaRDI portal

Learning Dissipative Dynamics in Chaotic Systems (Datasets) (Q6723152)

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Dataset published at Zenodo repository.
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Learning Dissipative Dynamics in Chaotic Systems (Datasets)
Dataset published at Zenodo repository.

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    We present the datasets for NeurIPS 2022 paper Learning Dissipative Dynamics in Chaotic Systems. In this work, we propose a machine learning framework, which we call the Markov Neural Operator (MNO), to learn the underlying solution operator for dissipative chaotic systems, showing that the resulting learned operator accurately captures short-time trajectories and long-time statistical behavior. In our work, we present results in the finite-dimensional toy system Lorenz-63. We showcase results on the 1D KuramotoSivashinsky (KS) and on the 2D Navier-Stokes (Kolmogorov flows) PDEs. We present the datasets for Lorenz-63, KS, and Navier-Stokes (Reynolds numbers 40, 500, and 5000). The data is stored as .npy and .matfiles: L63.mat:Lorenz-63 data (one long trajectory of 10000 seconds) KS.mat:1D KuramotoSivashinsky data (1200 trajectories, 500 time-steps each) 2D_NS_Re40.npy: 2D Navier-Stokes data (200 trajectories, 500 time-steps each) at 64 x 64spatial resolution. 2D_NS_Re500.npy: 2D Navier-Stokes data (1000 trajectories, 500 time-steps each) at 64 x 64 spatial resolution with Reynolds number 500. 2D_NS_Re5000.npy: 2D Navier-Stokes data (100 trajectories, 500 time-steps each) at 128 x 128 spatial resolution with Reynolds number 500.
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    28 November 2022
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