Efficient numerical calculation of Lyapunov-exponents and stability assessment for quasi-periodic motions in nonlinear systems

Investigating the stability of stationary motions is a highly relevant aspect when characterizing dynamical systems. For equilibria and periodic motions, well established theories and approaches exist to assess their stability: in both cases stability may be assessed using eigenvalue analyses of sma...

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Bibliographic Details
Published in:Nonlinear dynamics 2024-05, Vol.112 (10), p.8299-8327
Main Authors: Fiedler, Robert, Hetzler, Hartmut, Bäuerle, Simon
Format: Article
Language:English
Subjects:
Automotive Engineering
Classical Mechanics
Control
Duffing equation
Dynamic stability
Dynamical Systems
Eigenvalues
Embedding
Engineering
Exponents
Mathematical analysis
Mechanical Engineering
Motion stability
Nonlinear systems
Numerical methods
Numerical stability
Original Paper
Stability analysis
Vibration
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Summary:Investigating the stability of stationary motions is a highly relevant aspect when characterizing dynamical systems. For equilibria and periodic motions, well established theories and approaches exist to assess their stability: in both cases stability may be assessed using eigenvalue analyses of small perturbations. When it comes to quasi-periodic motions, such eigenvalue analyses are not applicable, since these motions can not be parameterized on finite time intervals. However, quasi-periodic motions can be densely embedded on finite invariant manifolds with periodic boundaries. In this contribution, a new approach is presented, which exploits this embedding in order to derive a sequence of finite mappings. Based on these mappings, the spectrum of 1st order Lyapunov -exponents is efficiently calculated. If the linearization of the problem is regular in the sense of Lyapunov , these exponents may be used to assess stability of the investigated solution. Beyond the numerical calculation of Lyapunov -exponents, an approach is presented which allows to check Lyapunov -regularity numerically. Together, both methods allow for an efficient numerical stability assessment of quasi-periodic motions. To demonstrate, verify and validate the developed approach, it is applied to quasi-periodic motions of two coupled van-der-Pol oscillators as well as a quasi-periodically forced Duffing equation. Additionally, a “step-by-step application instruction” is provided to increase comprehensibility and to discuss the required implementation steps in an applied context.
ISSN:0924-090X
1573-269X
DOI:10.1007/s11071-024-09497-9