Bi-level Identification of Governing Equations for Nonlinear Physical Systems
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https://zenodo.org/doi/10.5281/zenodo.15140828
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This data set contains all data used in the paper "Bi-level identification of complex dynamical systems through reinforcement learning".
In the BILLIE (Bi-level Identification of Equations) algorithm proposed in the paper, two sets of orthogonal data (denote as s1 and s2) were
used in each identification case.
The "_s1" (or "_s2") in a dataset's name means that s1 (or s2) was sampled from that dataset.
Those datasets without "_s1" (or "_s2") in the name means that both s1 and s2 was sampled from that dataset.
Each of the four folders is detailed as below.
1. The folder "Navier-Stokes equation" contains the simulated data of Navier-stokes equation for the three fluid dynamics identification cases.
Naming: "NS_(2D or 3D)_(Reynolds number)_(s1/s2 if any)"
Case1: 2D flow with Reynolds number of 100
The two sets of data is structured on a 256x256 grid within the 2pi x 2pi spatial domain, meaning dx=dy=2pi/256.
The time step is dt=0.0015.
The data is organized as [T, X, Y, C] where T is the temporal dimension, X, Y are the spatial dimensions, C=[V, U, P] where U, V are the two
fluid velocity components on the two spatial dimensions respectively, and P is the pressure scalar.
Case2: 2D flow with Reynolds number of 1000
The two sets of data is structured on a 2048x2048 grid within the 2pi x 2pi spatial domain, meaning dx=dy=2pi/2048.
The time step is dt=0.00005.
The data is organized as [T, X, Y, C], identically to case1.
Case3: 3D flow with Reynolds number of 100
This is the data of a flow around a cylinder published by Raissi in "Hidden fluid mechanics: Learning velocity and pressure fields from
flow visualizations" (DOI: 10.1126/science.aaw4741)
2. The folder "Burgers' equation" contains the simulated data of Burgers' equation for the experiments on small-coefficient terms, noise, and sparsity.
Ground truth equation: u_t = lambda*u_xx - u*u_x
Naming: "Burgers_coef_(lambda)_(grid setting: spatial x temporal)_(s1/s2)"
The datasets were simulated on a [-8, 8] spatial domain and [0, 10] temporal domain with structured grids of different levels of sparsity.
The noise tests were performed on "Burgers_coef_1e-1_257x101_s1.mat" and "Burgers_coef_1e-1_257x101_s2.mat" by manually adding gaussian noise.
3. The folder "Three body" contains the simulated data of the three-body system for the experiments on small-coefficient terms, noise, and sparsity.
Naming: "three_body_coef_(lambda, see paper for meaning)_(s1/s2)"
Each dataset contains a dictionary of 7 keys: x, y, z, u, v, w, dt.
The time step is dt=0.005.
The noise tests were performed on "three_body_coef_1e0_s1.mat" and "three_body_coef_1e0_s2.mat" by manually adding gaussian noise.
4. The folder "Single-cell sequencing data" contains the two sets of preprocessed multi-omics single-cell sequencing datasets used in identifying RNA
and protein velocity.
The original datasets of GSM2695381 and GSM2695382 is publicly available in the Gene Expression Omnibus ("Large-scale simultaneous
measurement of epitopes and transcriptomes in single cells").
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Zenodo创建时间:
2025-04-05



