2020
DOI: 10.1016/j.sna.2020.112271
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Predictive Switching Vibration Control Based on Harmonic Input Formulation

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Cited by 7 publications
(10 citation statements)
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“…To validate the proposed passive TMD system in the protected structure test-bench implementation, the passive TMD performance was evaluated for three study cases under harmonic excitation with a frequency range from 5 to 10 Hz, and an amplitude of 250 * 10 −6 m: (1) open circuit case without damping; (2) damping de � 32.8 N•s/m corresponding to the external resistive load R load � 500 Ohm; and (3) short circuit case when the damping coefficient is maximum at de � 64.7 N•s/m. As it may cause damage to the protected structure, the case without TMD was not considered.…”
Section: Resultsmentioning
confidence: 99%
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“…To validate the proposed passive TMD system in the protected structure test-bench implementation, the passive TMD performance was evaluated for three study cases under harmonic excitation with a frequency range from 5 to 10 Hz, and an amplitude of 250 * 10 −6 m: (1) open circuit case without damping; (2) damping de � 32.8 N•s/m corresponding to the external resistive load R load � 500 Ohm; and (3) short circuit case when the damping coefficient is maximum at de � 64.7 N•s/m. As it may cause damage to the protected structure, the case without TMD was not considered.…”
Section: Resultsmentioning
confidence: 99%
“…As passive vibration absorption devices are limited to a specific narrow operation frequency bandwidth to reduce the unwanted influence of machine-induced vibrations, different control techniques under harmonic-based vibrations have been proposed, implemented, and investigated over decades. Takamoto et al [1] proposed a new method by integrating model predictive and semiactive controls, and such a control strategy is known as predictive switching based on harmonic input (PSHI). e PSHI predicted the system's future states by assuming the harmonic control inputs and harmonic disturbances that caused resonance.…”
Section: Introductionmentioning
confidence: 99%
“…When the charge after inversion violates this constraint, switching is not performed. In the conventional method of semi-active vibration suppression (Takamoto et al, 2020), which determines the switch timing based on the target input, no constraints can be imposed on the actual control input. On the other hand, constraints can be imposed on the actual control input in the PSPCI method because it directly derives the switch timing.…”
Section: Pspci For Semi-active Vibration Suppressionmentioning
confidence: 99%
“…where the coefficient value (subscript V) is defined at a constant voltage, V is the piezoelectric voltage, y is the observation vector, and G Kal is the steady-state Kalman gain (Takamoto et al, 2020). In practice, the modal state value varies according to the circuit state, but this variation is neglected because the piezoelectric coefficient is small.…”
Section: Pspci For Semi-active Vibration Suppressionmentioning
confidence: 99%
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