Computation of Lyapunov–Perron transformation for linear quasi-periodic systems

This paper depicts the application of symbolically computed Lyapunov Perron (L-P) Transformation to solve linear and nonlinear quasi-periodic systems. The L-P transformation converts a linear quasi-periodic system into a time-invariant one. State augmentation and the method of Normal Forms are used to compute the L-P transformation analytically. The state augmentation approach converts a linear quasi-periodic system into a nonlinear time invariant system as the quasi-periodic parametric excitation terms are replaced by ‘fictitious’ states. This nonlinear system can be reduced to a linear system via Normal Forms in the absence of resonances. In this process, one obtains near identity transformation that contains fictitious states. Once the quasi-periodic terms replace the fictitious states they represent, the near identity transformation is converted to the L-P transformation. The L-P transformation can be used to solve linear quasi-periodic systems with external excitation and nonlinear quasi-periodic systems. Two examples are included in this work, a commutative quasi-periodic system and a non-commutative Mathieu-Hill type quasi-periodic system. The results obtained via the L-P transformation approach match very well with the numerical integration and analytical results.

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Computation of Lyapunov–Perron transformation for linear quasi-periodic systems

Cited by 5 publications

References 30 publications

A Direct Approach to Compute the Lyapunov–Perron Transformation for Linear Quasi-periodic Systems

A Direct Approach to Compute the Lyapunov–Perron Transformation for Linear Quasi-periodic Systems

Order reduction of nonlinear quasi-periodic systems subjected to external excitations

Lyapunov–Perron Transformation for Quasi-Periodic Systems and Its Applications

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