Precision control for ionic polymer metal composite actuator based on quantitative feedback theory

Author

Nam, Doan Ngoc Chi ; Truong, Dinh Quang ; Il, Yoon Jong ; Kwan, Ahn Kyoung

Author_Institution

Grad. Sch. of Mech. & Automotive Eng., Univ. of Ulsan, Ulsan, South Korea

fYear

2010

Firstpage

443

Lastpage

447

Abstract

An ion polymer metal composite (IPMC) is an Electro-Active Polymer (EAP) that bends in response to a small applied electrical field as a result of mobility of cations in the polymer network and vice versa. Recently, IPMC is widely applied in many fields such as biometric, biomedical and micro manipulator fields. This paper proposes a robust position controller for IPMCs which is based on the quantitative feedback theory (QFT). Firstly, the IPMC actuation was investigated. The PRBS input voltage signals were applied to the IPMC in order to identify the system characteristic. Consequently, the QFT controller for the IPMC was designed from the identified IPMC model. Experiments were carried out to validate the effectiveness of proposed controller applied to the IPMC.

Keywords

electroactive polymer actuators; feedback; PRBS input voltage signals; cation mobility; electro-active polymer; ionic polymer metal composite actuator; polymer network; precision control; quantitative feedback theory; Actuators; Frequency control; Frequency domain analysis; Noise; Position control; Robustness; Transfer functions; Ion Polymer Metal Composite (IPMC); Position Robust Control; Quantitative Feedback Theory (QFT);

fLanguage

English

Publisher

ieee

Conference_Titel

Control Automation and Systems (ICCAS), 2010 International Conference on

Conference_Location

Gyeonggi-do

Print_ISBN

978-1-4244-7453-0

Electronic_ISBN

978-89-93215-02-1

Type

conf

Filename

5669762