Add to ORKGIn this paper, a nonlinear active damping strategy based on force feedback is proposed, where only the modal stiffness ratio of the system when the actuator is installed and removed is required to design an effective controller. Closed-form expressions are derived using the ℋ∞ optimization criterion wherein the optimal feedback gains are achieved to minimize the maximal response of the structure. The resonant vibration of a Duffing oscillator is considered to illustrate the proposed tuning of the optimal control gain and the harmonic balance method is employed to approximate the analytical solutions. It is shown that the amplitude of the resonance peaks does not change substantially when the weight of the nonlinearity increases, which means...
This paper proposes a novel method for the robust partial assignment of natural frequencies and anti...
© The Society for Experimental Mechanics, Inc 2021.Tuned Vibration Absorbers (TVA) are commonly used...
The active vibration attenuation of linearly elastic structures modeled by the finite element method...
peer reviewedThis paper investigates the potential of using a nonlinear positive position feedback c...
This paper investigates the potential of using positive position feedback control for the mitigation...
Integral-force-feedback (IFF) is a popular control law in active vibration damping of mechanical sys...
In their simplest form, dynamic vibration absorbers (DVAs) are essentially devices of lumped paramet...
This study develops displacement- and kinetic energy-based tuning methods for the design of the tune...
This paper presents the optimal design of a passive autoparametric cantilever beam vibration absorbe...
This paper presents a novel technique for structural stiffness optimization with respect to vibratio...
2010-2011 > Academic research: refereed > Publication in refereed journalAccepted ManuscriptPublishe
The aim of the paper is to develop a new nonlinear tuned vibration absorber (NLTVA) capable of mitig...
This study addresses the mitigation of a nonlinear resonance of a mechanical system. In view of the ...
peer reviewedIn this paper, a new computational method for the purpose of multimodal vibration mitig...
peer reviewedThe objective of this paper is to introduce a new nonlinear dynamical absorber, the non...
This paper proposes a novel method for the robust partial assignment of natural frequencies and anti...
© The Society for Experimental Mechanics, Inc 2021.Tuned Vibration Absorbers (TVA) are commonly used...
The active vibration attenuation of linearly elastic structures modeled by the finite element method...
peer reviewedThis paper investigates the potential of using a nonlinear positive position feedback c...
This paper investigates the potential of using positive position feedback control for the mitigation...
Integral-force-feedback (IFF) is a popular control law in active vibration damping of mechanical sys...
In their simplest form, dynamic vibration absorbers (DVAs) are essentially devices of lumped paramet...
This study develops displacement- and kinetic energy-based tuning methods for the design of the tune...
This paper presents the optimal design of a passive autoparametric cantilever beam vibration absorbe...
This paper presents a novel technique for structural stiffness optimization with respect to vibratio...
2010-2011 > Academic research: refereed > Publication in refereed journalAccepted ManuscriptPublishe
The aim of the paper is to develop a new nonlinear tuned vibration absorber (NLTVA) capable of mitig...
This study addresses the mitigation of a nonlinear resonance of a mechanical system. In view of the ...
peer reviewedIn this paper, a new computational method for the purpose of multimodal vibration mitig...
peer reviewedThe objective of this paper is to introduce a new nonlinear dynamical absorber, the non...
This paper proposes a novel method for the robust partial assignment of natural frequencies and anti...
© The Society for Experimental Mechanics, Inc 2021.Tuned Vibration Absorbers (TVA) are commonly used...
The active vibration attenuation of linearly elastic structures modeled by the finite element method...