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Hauptverfasser: Yasuda, Tatsuya, Lucas, Dan
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2406.15588
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author Yasuda, Tatsuya
Lucas, Dan
author_facet Yasuda, Tatsuya
Lucas, Dan
contents We demonstrate the first successful non-invasive stabilisation of nonlinear travelling waves in a straight cylindrical pipe using time-delayed feedback control (TDF) working in various symmetry subspaces. By using an approximate linear stability analysis and by analysing the frequency domain effect of the control using transfer functions, we find that solutions with well separated unstable eigenfrequencies can have narrow windows of stabilising time-delays. To mitigate this issue we employ a "multiple time-delayed feedback" (MTDF) approach, where several control terms are included to attenuate a broad range of unstable eigenfrequencies. We implement a gradient descent method to dynamically adjust the gain functions in order to reduce the need for tuning a high dimensional parameter space. This results in a novel control method where the properties of the target state are not needed in advance and speculative guesses can result in robust stabilisation. This enables travelling waves to be stabilised from generic turbulent states and unknown travelling waves to be obtained in highly symmetric subspaces.
format Preprint
id arxiv_https___arxiv_org_abs_2406_15588
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Stabilising nonlinear travelling waves in pipe flow using time-delayed feedback
Yasuda, Tatsuya
Lucas, Dan
Fluid Dynamics
We demonstrate the first successful non-invasive stabilisation of nonlinear travelling waves in a straight cylindrical pipe using time-delayed feedback control (TDF) working in various symmetry subspaces. By using an approximate linear stability analysis and by analysing the frequency domain effect of the control using transfer functions, we find that solutions with well separated unstable eigenfrequencies can have narrow windows of stabilising time-delays. To mitigate this issue we employ a "multiple time-delayed feedback" (MTDF) approach, where several control terms are included to attenuate a broad range of unstable eigenfrequencies. We implement a gradient descent method to dynamically adjust the gain functions in order to reduce the need for tuning a high dimensional parameter space. This results in a novel control method where the properties of the target state are not needed in advance and speculative guesses can result in robust stabilisation. This enables travelling waves to be stabilised from generic turbulent states and unknown travelling waves to be obtained in highly symmetric subspaces.
title Stabilising nonlinear travelling waves in pipe flow using time-delayed feedback
topic Fluid Dynamics
url https://arxiv.org/abs/2406.15588