Integrated design of system structure and delayed resonator towards efficient non-collocated vibration absorption. (submitted draft)
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jinýother
submittedVersion
Author
Peichl A.
Kuře M.
Michiels W.
Vyhlídal T.
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Creative Commons Attribution (CC BY) 4.0http://creativecommons.org/licenses/by/4.0/
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The problem of non-collocated vibration absorption by a delayed resonator is addressed with emphasis on system fatigue resistance and energy efficiency of control actions. The analysis is performed for a system consisting of an arbitrary large series of flexibly linked single-degree-of-freedom masses. For the stage where the vibration of the target mass is fully absorbed by the non-collocated resonator, key forces, motion amplitudes and potential energies across the system structure are assessed. Next, a complete parameter set of the resonator gain and delay is derived, and the actuation force and power needed by the resonator for the full vibration absorption is determined. The derived quantities are utilized in forming an optimization problem to balance minimal risk of fatigue across the system structure and power needed by the resonator, under the closed loop stability and parameter constraints. Next to the gain and delay of the resonator, selected structural parameters of the system are used as variables in the constrained nonlinear optimization problem. The efficiency of the overall design procedure is demonstrated in a numerical case study.
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