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Active Damping of Rotating Platforms using Integral Force Feedback
Dehaeze Thomas, Collette Christophe

Abstract:

This paper investigates the use of Integral Force Feedback (IFF) for the active damping of rotating mechanical systems. Guaranteed stability, typical benefit of IFF, is lost as soon as the system is rotating due to gyroscopic effects. To overcome this issue, two modifications of the classical IFF control scheme are proposed. The first consists of slightly modifying the control law while the second consists of adding springs in parallel with the force sensors. Conditions for stability and optimal parameters are derived. The results reveal that, despite their different implementations, both modified IFF control scheme have almost identical damping authority on the suspension modes.

Conference Paper (pdf)

To cite this conference paper use the following bibtex code.

@inproceedings{dehaeze20_activ_dampin_rotat_platf_integ_force_feedb,
  author          = {Dehaeze, T. and Collette, C.},
  title           = {Active Damping of Rotating Platforms using Integral Force
                  Feedback},
  booktitle       = {Proceedings of the International Conference on Modal
                  Analysis Noise and Vibration Engineering (ISMA)},
  year            = 2020,
}

You can also use the formatted citation below.

Dehaeze, T., & Collette, C., Active damping of rotating platforms using integral force feedback, In , Proceedings of the International Conference on Modal Analysis Noise and Vibration Engineering (ISMA) (pp. ) (2020)

Matlab Scripts (link)

The Matlab scripts that permits to obtain all the results presented in the paper are accessible here.

Figures (link)

All the figures in the paper are generated using either TikZ or Inkscape. The code snippets that was used to generate the figures are accessible here.

Talk (link)