2012
DOI: 10.1016/j.proeng.2012.07.240
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Frequency Based Hysteresis Compensation for Piezoelectric Tube Scanner using Artificial Neural Networks

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Cited by 11 publications
(8 citation statements)
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“…Apart from model-based control methods, advanced controllers, such as the model predictive control (MPC) scheme [50,121], adaptive control scheme [122,123], H ∞ [65,[124][125][126], artificial neural networks (ANNs) [127,128], fuzzy logic control [129,130], sliding mode control [131], repetitive control [132][133][134], and iterative learning control (ILC) [47], have been designed to compensate the hysteresis effect in an AFM's PTS.…”
Section: Compensation Of Hysteresis Effectmentioning
confidence: 99%
See 1 more Smart Citation
“…Apart from model-based control methods, advanced controllers, such as the model predictive control (MPC) scheme [50,121], adaptive control scheme [122,123], H ∞ [65,[124][125][126], artificial neural networks (ANNs) [127,128], fuzzy logic control [129,130], sliding mode control [131], repetitive control [132][133][134], and iterative learning control (ILC) [47], have been designed to compensate the hysteresis effect in an AFM's PTS.…”
Section: Compensation Of Hysteresis Effectmentioning
confidence: 99%
“…The greatest problem with iterative techniques is the time they take to iterate the compensator and their inability to control disturbances and cross‐coupling. A frequency‐based hysteresis compensation method for a PTS using ANNs presented in and achieves good compensation of the hysteresis effect but at a low frequency of 1 Hz. This is in order to avoid vibration problems at high frequencies due to the excitation of the tube's resonance.…”
Section: Innovative Solutions Of the Ptsmentioning
confidence: 99%
“…It achieves better results than the Bouc-Wen and modified Prandtl-Ishlinskii (MPI) model-based ones as well as both the stand-alone controllers. Apart from model-based control methods, advanced controllers, such as the model predictive control (MPC) scheme [100], H ∞ [101], adaptive controller [102], [103], artificial neural networks (ANNs) [104], fuzzy logic control [105], repetitive control [106], sliding mode control [107], and iterative learning control (ILC) [97], have been designed to compensate the hysteresis effect in an AFM's PTS.…”
Section: ) Compensation Of Vibration Effectmentioning
confidence: 99%
“…The effect of hysteresis varies according to the applied voltage amplitudes, with a hysteresis loop becoming wider with increasing amplitudes and frequencies of the applied voltage signal. Advanced controllers, such as the H ∞ , indirect adaptive control , artificial neural networks , and iterative learning control (ILC) have been designed to compensate for the hysteresis effect in an AFM's PTS. In , a complex Preisach hysteresis model is used to design a controller to control hysteresis but this controller produces distortions in scanned images at high frequencies because it does not take any steps to damp the resonant mode.…”
Section: Introductionmentioning
confidence: 99%