Smart panel with active damping units. Implementation of decentralized control.

@article{Daz2008SmartPW,
  title={Smart panel with active damping units. Implementation of decentralized control.},
  author={Crist{\'o}bal Gonz{\'a}lez D{\'i}az and Christoph Paulitsch and Paolo Gardonio},
  journal={The Journal of the Acoustical Society of America},
  year={2008},
  volume={124 2},
  pages={
          898-910
        },
  url={https://api.semanticscholar.org/CorpusID:36452678}
}
The second part of a study on a smart panel with five decentralized velocity feedback control units using proof mass electrodynamic actuators has shown that reductions of up to 10 dB in both vibration response and sound radiation are measured at low audio frequencies.
View on PubMed
doi.org
28 Citations
Background Citations
2
Methods Citations
2

28 Citations

Comparison of decentralized velocity feedback control for thin homogeneous and stiff sandwich panels using electrodynamic proof-mass actuators

Downscaling of proof mass electrodynamic actuators for decentralized velocity feedback control on a panel

This paper presents a simulation study on the downscaling of multiple electrodynamic proof mass actuators for the implementation of decentralized velocity feedback control loops on a thin panel. The

Base impedance of velocity feedback control units with proof-mass electrodynamic actuators

Modelling of a piezoceramic patch actuator for velocity feedback control

This paper discusses the modelling of a thin panel with a velocity feedback control unit, which is formed by a piezoceramic patch actuator and, at its centre, an ideal point velocity sensor. The

Active Vibration Control of Rib Stiffened Plate by Using Decentralized Velocity Feedback Controllers with Inertial Actuators

Active control of low frequency vibration and sound radiation from a rib stiffened plate has great practical significance as this structure is widely applied in engineering, such as aircraft or ship

Active vibration control unit with a flywheel inertial actuator

Passive and active vibration isolation systems using inerter

Comparison of smart panels for tonal and broadband vibration and sound transmission active control

ABSTRACT This paper presents a comprehensive overview of the principal features of smart panels equipped with feed-forward and feedback systems for the control of the flexural response and sound

Modular Vibration Control Unit Formed by an Electromagnetic Proof-Mass Transducer and Sweeping Resistive–Inductive Shunt

This paper presents a vibration control unit formed by an electromagnetic proof-mass transducer connected to a sweeping resistive–inductive (RL)-shunt, which can be used to control broadband

Velocity feedback control with a flywheel proof mass actuator

5 References

Smart panel with multiple decentralized units for the control of sound transmission. Part III: control system implementation

Active damping control unit using a small scale proof mass electrodynamic actuator.

A stability-performance formula is derived, which can be effectively used to assess the down scaling effects on the stability and control performance of the feedback loop.

The stability of decentralized multichannel velocity feedback controllers using inertial actuators

The application of direct velocity feedback control on vibrating structures is well known to provide additional damping and reduce vibration levels. A number of previously studied control systems use

Active Vibration Damping Using an Inertial, Electrodynamic Actuator (DETC2005-84632)

Active vibration damping using a shunted inertial actuator is advantageous if external sensors cannot be collocated with the actuators, or these sensors would add too much weight or cost. When

2 – Optimal and Adaptive Digital Filters