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- Title
Hysteresis compensation and adaptive control based evolutionary neural networks for piezoelectric actuator.
- Authors
Son, Nguyen N.; Van Kien, Cao; Anh, Ho P. H.
- Abstract
This manuscript introduces a new adaptive inverse neural (AIN) control method applied to precisely track the piezoelectric (PZT) actuator displacement. First, a 3‐layer neural network optimized by the enhanced differential evolution technique which modifies a mutation scheme and provides suggestions for selecting mutant coefficient F, crossover coefficient CR, and population size NP, is used to identify the inverse nonlinearity hysteresis structure of the PZT actuator. Second, a feed‐forward control based on the identified model is proposed to compensate for the PZT hysteresis effect. Third, the Lyapunov stability principle is used to design and implement an adaptive law‐based neural sliding mode model plus the feed‐forward compensator to ensure that the whole PZT plant is operated in asymptotical stability. The experiment results demonstrate the proposed AIN controller proves superiority in comparison with other advanced control methods.
- Subjects
PIEZOELECTRIC actuators; ADAPTIVE control systems; HYSTERESIS; LYAPUNOV stability; DIFFERENTIAL evolution; ACTUATORS
- Publication
International Journal of Intelligent Systems, 2021, Vol 36, Issue 10, p5472
- ISSN
0884-8173
- Publication type
Article
- DOI
10.1002/int.22519