Title :
Indirect Adaptive Attenuation of Multiple Narrow-Band Disturbances Applied to Active Vibration Control
Author :
Airimitoaie, Tudor-Bogdan ; Landau, Ioan Dore
Author_Institution :
Control Syst. Dept., GIPSA-Lab., Grenoble, France
Abstract :
In this brief, an indirect adaptive control methodology for attenuation of multiple unknown time varying narrow-band disturbances is proposed. This method is based on the real time estimation of the frequency of narrow-band disturbances using adaptive notch filters followed by the design of a controller using adjustable band-stop filters for the appropriate shaping of the output sensitivity function. A Youla-Kučera parametrization of the controller is used for reducing the computation load. This approach is compared on an active vibration control system with the direct adaptive control scheme based on the internal model principle proposed. Real time experimental results are provided.
Keywords :
adaptive control; adaptive filters; band-stop filters; control system synthesis; notch filters; time-varying systems; vibration control; Youla-Kucera controller parametrization; active vibration control system; adaptive notch filters; adjustable band-stop filters; computation load; controller design; direct adaptive control scheme; indirect adaptive control methodology; internal model principle; multiple narrow-band disturbances; multiple unknown time varying narrow-band disturbance attenuation; output sensitivity function; real time frequency estimation; Active vibration control (AVC); Youla-Kučera parametrization; indirect adaptive regulation; loop-shaping; multiple narrow-band disturbances;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2013.2257782
