Sajjad Azimi scite author profile

Chaotic dynamics in systems ranging from low-dimensional nonlinear differential equations to high-dimensional spatio-temporal systems including fluid turbulence is supported by non-chaotic, exactly recurring time-periodic solutions of the governing equations. These unstable periodic orbits capture key features of the turbulent dynamics and sufficiently large sets of orbits promise a framework to predict the statistics of the chaotic flow. Computing periodic orbits for high-dimensional spatio-temporally chaotic systems remains challenging as known methods either show poor convergence properties because they are based on time-marching of a chaotic system causing exponential error amplification; or they require constructing Jacobian matrices which is prohibitively expensive. We propose a new matrix-free method that is unaffected by exponential error amplification, is globally convergent and can be applied to high-dimensional systems. The adjoint-based variational method constructs an initial value problem in the space of closed loops such that periodic orbits are attracting fixed points for the loop-dynamics. We introduce the method for general autonomous systems. An implementation for the one-dimensional Kuramoto-Sivashinsky equation demonstrates the robust convergence of periodic orbits underlying spatio-temporal chaos. Convergence does not require accurate initial guesses and is independent of the period of the respective orbit.

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Free vibration of circular plates with elastic or rigid interior support

Azimi

1988

Journal of Sound and Vibration

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Axisymmetric vibration of point-supported circular plates

Azimi

1989

Journal of Sound and Vibration

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Sajjad Azimi

The receptance method applied to the free vibration of continuous rectangular plates

Free vibration of circular plates with elastic edge supports using the receptance method

Constructing periodic orbits of high-dimensional chaotic systems by an adjoint-based variational method

Free vibration of circular plates with elastic or rigid interior support

Axisymmetric vibration of point-supported circular plates

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