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HODMD

swMATH ID: 34484
Software Authors: Soledad Le Clainche; José M. Vega
Description: HODMD: Higher Order Dynamic Mode Decomposition. This paper deals with an extension of dynamic mode decomposition (DMD), which is appropriate to treat general periodic and quasi-periodic dynamics, and transients decaying to periodic and quasi-periodic attractors, including cases (not accessible to standard DMD) that show limited spatial complexity but a very large number of involved frequencies. The extension, labeled as higher order dynamic mode decomposition, uses time-lagged snapshots and can be seen as superimposed DMD in a sliding window. The new method is illustrated and clarified using some toy model dynamics, the Stuart–Landau equation, and the Lorenz system. In addition, the new method is applied to (and its robustness is tested in) some permanent and transient dynamics resulting from the complex Ginzburg–Landau equation (a paradigm of pattern forming systems), for which standard DMD is seen to only uncover trivial dynamics, and the thermal convection in a rotating spherical shell subject to a radial gravity field.
Homepage: https://epubs.siam.org/doi/10.1137/15M1054924
Dependencies: Matlab
Related Software: GitHub; redbKIT; Loewner; VAMPnets; PDE-Net; rsvd; FEAPpv; FreeFem++; BladeX; PyDMD; EZyRB; PyGeM; astsa; Matlab; RLDDE; SciPy; OpenFOAM; TISEAN; LAPACK; Spalart-Allmaras
Referenced in: 15 Publications

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