Title :
Modified ESO based RC for improved disturbance rejection capability for the plant with time-varying uncertainty
Author :
Sayem, A.H.M. ; Zhenwei Cao ; Zhihong Man ; Kurniawan, Edi
Author_Institution :
Fac. of Sci., Eng. & Technol., Swinburne Univ. of Technol., Melbourne, VIC, Australia
Abstract :
A modified robust controller is proposed, to regulate uncertainties in system dynamics and external disturbances, for the plant with relative degree greater than zero. The design is based on the concept of extended state observer (ESO) with repetitive controller (RC). In real time estimation and mitigation of the total effect of various uncertainties, ESO based RC is particularly effective against a wide range of parameter variations, model uncertainties, and large disturbances. With only two tuning parameters, the controller provides a simple and user friendly solution to complex engineering problems in practice. The comparison results verified the effectiveness of the ESO based RC over state observer (SO) based RC.
Keywords :
observers; robust control; time-varying systems; uncertain systems; disturbance rejection capability improvement; extended state observer; external disturbances; modified ESO based RC; modified robust controller; parameter variations; plant; real time estimation; relative degree; repetitive controller; system dynamics; time-varying uncertainty; Australia; Control systems; Noise; Observers; Robustness; Uncertain systems; Uncertainty; ESO; RC; SO;
Conference_Titel :
Modelling, Identification & Control (ICMIC), 2014 Proceedings of the 6th International Conference on
Conference_Location :
Melbourne, VIC
DOI :
10.1109/ICMIC.2014.7020749
