Rate-dependent asymmetric hysteresis modeling and robust adaptive trajectory tracking for piezoelectric micropositioning stages

Nie, Linlin; Luo, Yiling; Gao, Wei; Zhou, Miaolei

doi:10.1007/s11071-022-07324-7

Cited by 30 publications

(12 citation statements)

References 49 publications

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“…Therefore, we designed a method to extract practical control signal u(t) from hysteresis temporary control law w(u) is required. Inspired by the treatment method of single loop hysteresis [28,29], we designed a butterfly hysteresis pseudo-inverse algorithm next. The unknown density functions p(r) and q(c) are calculated online.…”

Section: The Pseudo Inverse Algorithm Design For Butterfly Hysteresismentioning

confidence: 99%

“…Presently, adaptive inverse control and robust adaptive control are two main methods to cope with hysteresis nonlinearity. Therein, the robust adaptive control method divides the hysteresis model into a linear part and a nonlinear part [28,29], this division depends on the control signal. Additionally, this method treats the nonlinear part as bounded disturbances.…”

Section: Introductionmentioning

confidence: 99%

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Modeling and adaptive pseudo-inverse control for dielectric elastomer actuated motion control systems

Zhang¹,

Guo²,

Xu³

et al. 2022

Smart Mater. Struct.

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In this paper, we propose a neural network approximators-based proportional-derivative (PD) pseudo-inverse control scheme. The purpose is to precisely control a motion control systems actuated by a dielectric elastomer. Our main contributions are as follows: 1) a new butterﬂy asymmetric shift Prandtl-Ishlinskii (BASPI) model that can describe the butterﬂy hysteresis behavior in a dielectric elastomer actuator (DEA); 2) the butterﬂy hysteresis pseudo-inverse compensation algorithms to eﬀectively mitigate the butterﬂy hysteresis, instead of the explicit butterﬂy hysteresis inverse compensator. These algorithms search for the practical control signal from the hysteretic temporary controller; 3) a dielectric elastomer actuated motion control platform is constructed. Finally, we conducted the openloop and closed-loop experiments to verify the eﬀectiveness of the proposed BASPI model and the proposed control scheme.

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Section: The Pseudo Inverse Algorithm Design For Butterfly Hysteresismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Modeling and adaptive pseudo-inverse control for dielectric elastomer actuated motion control systems

Zhang¹,

Guo²,

Xu³

et al. 2022

Smart Mater. Struct.

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“…Nanopositioning stages with high accuracy and fast response are widely used in nanomanipulation and microassembly, including micropart assembly, nanoimprinting, biological cell arrangement, and non-contact optical scanning. [1][2][3] Usually, nanopositioning stages provide multiple degree-of-freedom (DoF) motions to carry upper operation equipment (e.g. a microgripper, micropipette, or microprobe) to achieve precision positioning and posture adjustment of manipulated objects.…”

Section: Introductionmentioning

confidence: 99%

Design and disturbance rejection control of a piezoelectric nanopositioning stage

Yang

et al. 2023

Proceedings of the Institution of Mechanical Engineers, Part C:

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The article covers structural design and disturbance rejection control of a flexure-based compliant piezoelectric nanopositioning stage. The stage is devised using four-bar amplification mechanisms, auxiliary guiding mechanisms, and a compound parallelogram mechanism. Static and dynamic models of compliant mechanisms are analyzed based on a compliance matrix method. A modified Prandtl-Ishlinskii (PI) model with dead zone operators is used to describe the asymmetric hysteresis. Then, a global electromechanical dynamic model is built and identified. A comprehensive disturbance rejection controller (CDRC) combining a robust H∞ control and a disturbance observer-based (DOB) control is proposed for high trajectory tracking accuracy and anti-disturbance performance. The trajectory tracking accuracy of the stage can be up to 3 nm in experiments. As amplitudes of reference signals increases, relative tracking errors gradually decrease. System instability and oscillation caused by strong external disturbances are also reduced. Experimental results prove the effectiveness of the developed CDRC.

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“…Therefore, the characteristics of the system and the applicability of inverted control must be fully considered in practical applications. To overcome the limitations of back stepping method, the dynamic surface control (DSC) method has been proposed [20][21][22][23][24][25]. This method introduces a first-order low-pass filter in the each design process, which separates the coupling between the previous and the next steps, solves the problem of repeated differentiation of the virtual control law, and overcomes the differential explosion phenomenon.…”

Section: Introductionmentioning

confidence: 99%

Decentralized Adaptive Quantized Dynamic Surface Control for a Class of Flexible Hypersonic Flight Vehicles with Input Quantization

Zhao¹,

Lu²,

et al. 2023

Machines

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A control strategy for a certain class of hypersonic flight aircraft dynamic models with unknown parameters is proposed in this article. The strategy is adaptive dynamic surface input quantization control. To address the issues in conventional inversion control, a first-order low-pass filter and an adaptive parameter minimum learning law are introduced in the control system design process. This method has the following features: (1) it solves the problem of repeated differentiation of the virtual control law in the conventional back-stepping method, greatly simplifying the control law structure; (2) by using the norm of the neural network weight vector as the adaptive adjustment parameter instead of updating each element online, the number of adaptive adjustment parameters is significantly reduced, improving the execution efficiency of the controller; (3) the introduced hysteresis quantizer overcomes the disadvantage of the quantization accuracy deterioration when the input value is too low in the logarithm quantizer, improving the accuracy of the quantizer. Stability analysis has shown that all signals in the closed-loop system are semi-globally uniformly bounded, and simulation results have verified the effectiveness of the proposed adaptive quantized control scheme.

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Rate-dependent asymmetric hysteresis modeling and robust adaptive trajectory tracking for piezoelectric micropositioning stages

Cited by 30 publications

References 49 publications

Modeling and adaptive pseudo-inverse control for dielectric elastomer actuated motion control systems

Modeling and adaptive pseudo-inverse control for dielectric elastomer actuated motion control systems

Design and disturbance rejection control of a piezoelectric nanopositioning stage

Decentralized Adaptive Quantized Dynamic Surface Control for a Class of Flexible Hypersonic Flight Vehicles with Input Quantization

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