A Robust Position Controller Synthesis for Compliant Mechanical Systems via Disturbance Observer in State Space

Emre Sariyildiz; Rahim Mutlu

doi:10.1109/AMC.2019.8371165

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A Robust Position Controller Synthesis for Compliant Mechanical Systems via Disturbance Observer in State Space

Conference proceeding

Peer reviewed

A Robust Position Controller Synthesis for Compliant Mechanical Systems via Disturbance Observer in State Space

Emre Sariyildiz and Rahim Mutlu

2018 IEEE 15th International Workshop on Advanced Motion Control (AMC), pp.619-624

International Workshop on Advanced Motion Control

2018 IEEE 15th International Workshop on Advanced Motion Control (AMC), 15th (Tokyo, Japan, 09/03/2018–11/03/2018)

04/06/2018

DOI: https://doi.org/10.1109/AMC.2019.8371165

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Abstract

robustness

estimation

vibrations

mechanical systems

aerospace electronics

position control

compliant mechanism

disturbance observer

matched and mismatched disturbances

robust control

vibration suppression

This paper proposes a robust position controller for compliant mechanical systems by combining a state feedback controller and Disturbance Observer (DOb) in state space. The vibration of a compliant mechanical system is simply suppressed by placing all poles of the closed loop system on the real axis via a state feedback controller. The robustness of the controller is improved by feeding back the estimations of disturbances and their successive time derivatives so that not only matched but also mismatched disturbances are eliminated. The robust state and control input references are generated by using the Brunovsky canonical form of the controllable system and the estimations of disturbances and their successive time derivatives. It is shown that the link of a compliant mechanical system can precisely follow its reference trajectory by suppressing the vibration and disturbances when the proposed robust controller is implemented. The validity of the proposal is verified by giving simulation results of a two-mass-spring-damper system.

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Title: A Robust Position Controller Synthesis for Compliant Mechanical Systems via Disturbance Observer in State Space
Creators: Emre Sariyildiz - University of Wollongong
Rahim Mutlu - University of Wollongong
Publication Details: 2018 IEEE 15th International Workshop on Advanced Motion Control (AMC), pp.619-624
Conference: 2018 IEEE 15th International Workshop on Advanced Motion Control (AMC), 15th (Tokyo, Japan, 09/03/2018–11/03/2018)
Series: International Workshop on Advanced Motion Control
Publisher: IEEE; USA
Number of pages: 6
Identifiers: 991013225624102368
Academic Unit: Faculty of Science and Engineering
Language: English
Resource Type: Conference proceeding

A Robust Position Controller Synthesis for Compliant Mechanical Systems via Disturbance Observer in State Space

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