Analysis and design aspects of delayed resonator absorber with position, velocity or acceleration feedback

A thorough analysis of six delayed resonator configurations is performed. Considering either lumped or distributed delays, feedback is taken from acceleration, velocity or position measurements. Next to presenting stability maps derived by the Cluster Treatment of Characteristic Roots, the robustnes...

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Published inJournal of sound and vibration Vol. 459; p. 114831
Main Authors Vyhlídal, Tomáš, Pilbauer, Dan, Alikoç, Baran, Michiels, Wim
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier Ltd 27.10.2019
Elsevier Science Ltd
Subjects
Absorbers
Acceleration
Active vibration control
Configuration management
Configurations
Delayed resonator
Design analysis
Electronics
Feedback
Feedback control systems
Model forms
Parameterization
Physical properties
Position measurement
Resonators
Spectral method
Stability
Time delay system
Velocity
Vibration
Vibration analysis
Vibration control
Active vibration control
Spectral method
Stability
Time delay system
Delayed resonator
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Abstract A thorough analysis of six delayed resonator configurations is performed. Considering either lumped or distributed delays, feedback is taken from acceleration, velocity or position measurements. Next to presenting stability maps derived by the Cluster Treatment of Characteristic Roots, the robustness in the vibration suppression is analyzed. It is shown that the deterioration of vibration suppression caused by mismatch between the design and true excitation frequencies can be decreased by a proper selection of the delayed resonator configuration and the frequency operable range. Besides, the force and energy demands from the resonator feedback are studied with respect to the absorber physical parameters. All the results are derived for a dimensionless model form and as such they are universally valid. Thus, with respect to the important design specifications, the analysis is complete and can be used as guidelines for parametrization of the given delayed resonator set, with respect to the operable conditions.
AbstractList A thorough analysis of six delayed resonator configurations is performed. Considering either lumped or distributed delays, feedback is taken from acceleration, velocity or position measurements. Next to presenting stability maps derived by the Cluster Treatment of Characteristic Roots, the robustness in the vibration suppression is analyzed. It is shown that the deterioration of vibration suppression caused by mismatch between the design and true excitation frequencies can be decreased by a proper selection of the delayed resonator configuration and the frequency operable range. Besides, the force and energy demands from the resonator feedback are studied with respect to the absorber physical parameters. All the results are derived for a dimensionless model form and as such they are universally valid. Thus, with respect to the important design specifications, the analysis is complete and can be used as guidelines for parametrization of the given delayed resonator set, with respect to the operable conditions.
ArticleNumber 114831
Author Alikoç, Baran
Vyhlídal, Tomáš
Michiels, Wim
Pilbauer, Dan
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  surname: Vyhlídal
  fullname: Vyhlídal, Tomáš
  email: Tomas.Vyhlidal@fs.cvut.cz
  organization: Dept. of Instrumentation and Control Eng., Faculty of Mechanical Engineering, Czech Technical University in Prague, Technická 4, 166 07, Praha 6, Czech Republic
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  givenname: Dan
  surname: Pilbauer
  fullname: Pilbauer, Dan
  organization: Dept. of Instrumentation and Control Eng., Faculty of Mechanical Engineering, Czech Technical University in Prague, Technická 4, 166 07, Praha 6, Czech Republic
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  givenname: Baran
  surname: Alikoç
  fullname: Alikoç, Baran
  email: Baran.Alikoc@cvut.cz
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  givenname: Wim
  surname: Michiels
  fullname: Michiels, Wim
  email: Wim.Michiels@cs.kuleuven.be
  organization: Department of Computer Science, KU Leuven, Celestijnenlaan 200A, B-3001, Heverlee, Belgium
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Keywords Active vibration control
Spectral method
Stability
Time delay system
Delayed resonator
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Snippet A thorough analysis of six delayed resonator configurations is performed. Considering either lumped or distributed delays, feedback is taken from acceleration,...
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SubjectTerms Absorbers
Acceleration
Active vibration control
Configuration management
Configurations
Delayed resonator
Design analysis
Electronics
Feedback
Feedback control systems
Model forms
Parameterization
Physical properties
Position measurement
Resonators
Spectral method
Stability
Time delay system
Velocity
Vibration
Vibration analysis
Vibration control
Title Analysis and design aspects of delayed resonator absorber with position, velocity or acceleration feedback
URI https://dx.doi.org/10.1016/j.jsv.2019.06.038
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Volume 459
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