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- Title
Compensation of hysteresis in a shape memory alloy wire system using linear parameter‐varying gain scheduling control.
- Authors
Kilicarslan, Atilla; Grigoriadis, Karolos; Song, Gangbing
- Abstract
Robust tracking control of shape memory alloy (SMA) systems is a challenge because of their highly non‐linear response, non‐local memory and lack of differentiability. In this work, a linear parameter‐varying (LPV) control method is proposed to compensate for the hysteretic behaviour of an SMA actuator. To provide information on the scheduling variable, the Preisach model of hysteresis is utilised. Parameter‐dependent controller is updated based on the real‐time computation of the instantaneous scheduling variable from the model. An H∞ controller is also synthesised by representing the hysteresis as a parametric uncertainty. The controllers are implemented on an SMA actuated experimental system. Experimental validation is conducted for various types of reference inputs which can dramatically change the system's response. These reference signals are designed to excite major, minor and frequency dependent hysteresis loops. Trajectory tracking and disturbance rejection results show that the LPV controller has an improved response and the hysteresis is compensated for the full range of the scheduling variable. The tracking performances of both controllers are also compared when the system is under partial and persistent plant disturbances. For these cases, the LPV controller results in a more robust tracking response because of its less conservative structure.
- Publication
IET Control Theory & Applications (Wiley-Blackwell), 2014, Vol 8, Issue 16, p1875
- ISSN
1751-8644
- Publication type
Article
- DOI
10.1049/iet-cta.2013.0856