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Auteurs principaux: Sebghati, Ashkan, HosseinNia, S. Hassan
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2510.09445
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author Sebghati, Ashkan
HosseinNia, S. Hassan
author_facet Sebghati, Ashkan
HosseinNia, S. Hassan
contents In this paper, a robust nonlinear control scheme is designed for the motion control of a class of piezo-actuated nano-positioning systems using frequency-domain analysis. The hysteresis, the nonlinearity in the piezoelectric material, degrades the precision in tracking references with high frequency contents and different travel ranges. The hysteresis compensation by the inverse model, as the state-of-the-art solution, is not reliable alone. Therefore, a control framework with robustness against the remaining nonlinearity is needed. It is shown that there is an unavoidable limitation in robust linear control design to improve the performance. A robust control methodology based on a complex-order element is established to relax the limitation. Then, a constant-in-gain-lead-in-phase (CgLp) reset controller is utilized to realize the complex-order control. The control design is based on the sinusoidal input describing function (SIDF) and the higher-order SIDF (HOSIDF) tools. A constrained optimization problem is provided to tune the control parameters. The achieved improvements by the CgLp control is validated by the simulation.
format Preprint
id arxiv_https___arxiv_org_abs_2510_09445
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Robust reset control design for piezo-actuated nano-positioner in presence of hysteresis nonlinearity
Sebghati, Ashkan
HosseinNia, S. Hassan
Systems and Control
In this paper, a robust nonlinear control scheme is designed for the motion control of a class of piezo-actuated nano-positioning systems using frequency-domain analysis. The hysteresis, the nonlinearity in the piezoelectric material, degrades the precision in tracking references with high frequency contents and different travel ranges. The hysteresis compensation by the inverse model, as the state-of-the-art solution, is not reliable alone. Therefore, a control framework with robustness against the remaining nonlinearity is needed. It is shown that there is an unavoidable limitation in robust linear control design to improve the performance. A robust control methodology based on a complex-order element is established to relax the limitation. Then, a constant-in-gain-lead-in-phase (CgLp) reset controller is utilized to realize the complex-order control. The control design is based on the sinusoidal input describing function (SIDF) and the higher-order SIDF (HOSIDF) tools. A constrained optimization problem is provided to tune the control parameters. The achieved improvements by the CgLp control is validated by the simulation.
title Robust reset control design for piezo-actuated nano-positioner in presence of hysteresis nonlinearity
topic Systems and Control
url https://arxiv.org/abs/2510.09445