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- Title
Physics enhanced sparse identification of dynamical systems with discontinuous nonlinearities.
- Authors
Lathourakis, Christos; Cicirello, Alice
- Abstract
A method is introduced for the identification of the nonlinear governing equations of dynamical systems in the presence of discontinuous and nonsmooth nonlinear forces, such as the ones generated by frictional contacts, based on noisy measurements. The so-called Physics Encoded Sparse Identification of Nonlinear Dynamics (PhI-SINDy) builds upon the existing RK4-SINDy identification scheme, incorporating known physics and domain knowledge in three different ways (biases). In this way, it addresses the discontinuous behavior of frictional systems when stick–slip phenomena are observed, which can not be captured by existing state-of-the-art approaches. The potential of PhI-SINDy is highlighted through a plethora of case studies, starting from a simple yet representative Single Degree of Freedom (SDOF) oscillator with a Coulomb friction contact under harmonic load, using both synthetic and experimental noisy measurements. An alternative friction law, namely the Dieterich-Ruina one, is also considered as well as a more realistic excitation time series, which was generated based on the Jonswap spectrum. Lastly, a Multi Degree of Freedom system with single and multiple friction contacts is used as a testbed, showcasing the applicability of PhI-SINDy to more complicated systems and/or multiple sources of discontinuous nonlinearities.
- Subjects
DYNAMICAL systems; SYSTEM identification; COULOMB friction; STICK-slip response; DEGREES of freedom; NONLINEAR dynamical systems; NONLINEAR oscillators; FREE convection
- Publication
Nonlinear Dynamics, 2024, Vol 112, Issue 13, p11237
- ISSN
0924-090X
- Publication type
Article
- DOI
10.1007/s11071-024-09652-2