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Main Authors: Heinrich, Kjell S., Seth, Douglas S., Ehrnstrom, Mats, Ellingsen, Simen Å.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.05486
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author Heinrich, Kjell S.
Seth, Douglas S.
Ehrnstrom, Mats
Ellingsen, Simen Å.
author_facet Heinrich, Kjell S.
Seth, Douglas S.
Ehrnstrom, Mats
Ellingsen, Simen Å.
contents New data-driven methods have advanced the discovery of governing equations from observations, enabling parsimonious models for complex systems. Here, we 'rediscover' a shallow-water equation closely related to Korteweg--de Vries (KdV) using only video recordings of solitons in a simple flume. Two fundamentally different approaches -- weak-form sparse identification of nonlinear dynamics (WSINDy) and a novel Fourier-multiplier method -- recover the same PDE, demonstrating that the equation is inherent in the data and robust to the choice of method. Both identify the same terms with comparable magnitudes and errors. To validate the models, we solve the discovered equations forward in time and compare them with additional experimental cases that were not used in the discovery. Based on the results, we discuss absolute and cumulative errors, as well as the strengths and limitations of the two discovery approaches. Together, these results demonstrate the potential of equation discovery from everyday experiments ('GoPro physics') and highlight shallow-water waves as an ideal test bed for developing and benchmarking new methods.
format Preprint
id arxiv_https___arxiv_org_abs_2511_05486
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Rediscovering shallow water equations from experimental data
Heinrich, Kjell S.
Seth, Douglas S.
Ehrnstrom, Mats
Ellingsen, Simen Å.
Fluid Dynamics
Data Analysis, Statistics and Probability
New data-driven methods have advanced the discovery of governing equations from observations, enabling parsimonious models for complex systems. Here, we 'rediscover' a shallow-water equation closely related to Korteweg--de Vries (KdV) using only video recordings of solitons in a simple flume. Two fundamentally different approaches -- weak-form sparse identification of nonlinear dynamics (WSINDy) and a novel Fourier-multiplier method -- recover the same PDE, demonstrating that the equation is inherent in the data and robust to the choice of method. Both identify the same terms with comparable magnitudes and errors. To validate the models, we solve the discovered equations forward in time and compare them with additional experimental cases that were not used in the discovery. Based on the results, we discuss absolute and cumulative errors, as well as the strengths and limitations of the two discovery approaches. Together, these results demonstrate the potential of equation discovery from everyday experiments ('GoPro physics') and highlight shallow-water waves as an ideal test bed for developing and benchmarking new methods.
title Rediscovering shallow water equations from experimental data
topic Fluid Dynamics
Data Analysis, Statistics and Probability
url https://arxiv.org/abs/2511.05486