Closed loop identification of a piezoelectrically controlled radial gas bearing: Theory and experiment

Abstract: Gas bearing systems have extremely small damping properties. Feedback control is thus employed to increase the damping of gas bearings. Such a feedback loop correlates the input with the measurement noise which in turn makes the assumptions for direct identification invalid. The originality of this paper lies in the investigation of the impact of using different identification methods to identify a rotor-bearing systems dynamic model when a feedback loop is active. Two different identification methods are empl… Show more

“…Closed-loop identification of a piezoelectrically controlled gas bearing using the modified version of the original Hansen scheme in Sekunda et al (2015) was presented in Sekunda, Niemann, Poulsen, and Santos (2018) . It highlights the need of closed-loop identification since the system is unstable without feedback control.…”

Advances in Youla-Kucera parametrization: A Review

“…Closed-loop identification of a piezoelectrically controlled gas bearing using the modified version of the original Hansen scheme in Sekunda et al (2015) was presented in Sekunda, Niemann, Poulsen, and Santos (2018) . It highlights the need of closed-loop identification since the system is unstable without feedback control.…”

Advances in Youla-Kucera parametrization: A Review