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Modern Mechanical Engineering

Modern Mechanical Engineering

Modern Mechanical Engineering

ISSN Print: 2164-0165
ISSN Online: 2164-0181
www.scirp.org/journal/mme
E-mail: mme@scirp.org
"A Survey of Modeling and Control of Piezoelectric Actuators"
written by Jingyang Peng, Xiongbiao Chen,
published by Modern Mechanical Engineering, Vol.3 No.1, 2013
has been cited by the following article(s):
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[1] Principle, implementation, and applications of charge control for piezo-actuated nanopositioners: A comprehensive review
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[2] Research on identification and active vibration control of cantilever structure based on NARX neural network
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[3] A Wiener Model Identification for Creep and Vibration Linear and Hysteresis Nonlinear Dynamics of Piezoelectric Actuator
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[4] Attaining Ultraprecision Machining by Feed Drive System Stability Control with Piezoelectric Preloading Actuators
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[5] Polynomial-based Stability Analysis of Modified IMC-PID Controller for Piezoelectric Actuator System in Time Delay Environment
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[6] Simulation of Piezoelectric Stack Actuators for Loss Component.
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[7] Jestr r
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[8] High-Bandwidth Hysteresis Modeling of Piezoelectric Actuators Based on Modified NARX Neural Network
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[9] Identification and compensator design using NARX models
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[10] 直线形压电致动器的研究综述
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[11] Investigations on piezo actuated micro XY stage for vibration-assisted micro milling
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[12] Simulations of 3D-Printable biomimetic artificial muscles based on microfluidic microcapacitors for exoskeletal actuation and stealthy underwater propulsion
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[13] The effect of geometry on the performance of amplified flexure-guided actuators
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[14] Advances in Tracking Control for Piezoelectric Actuators Using Fuzzy Logic and Hammerstein-Wiener Compensation
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[15] Tracking Control for Piezoelectric Actuators with Advanced Feed-forward Compensation Combined with PI Control
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[16] Modeling of a Piezoelectric Based Nanopositioning Stage
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[17] Sliding Mode Control with Dynamical Correction for Time-Delay Piezoelectric Actuator Systems
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[18] Feedforward Compensation Analysis of Piezoelectric Actuators Using Artificial Neural Networks with Conventional PID Controller and Single-Neuron PID Based on …
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[19] Micro-electromechanical-system actuators for biomedical applications: a review
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[20] Identification and nonlinearity compensation of hysteresis using NARX models
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[21] Quasi-rayleigh model for modeling hysteresis of piezoelectric actuators
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[22] High-precision measurements of alkanethiol self-assembled monolayer structure with scanning tunneling microscopy
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[23] Hysteresis modeling of piezoelectric actuator using particle swarm optimization-based neural network
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[24] MEMS Actuators for Biomedical Applications: A Review
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[25] Influence of piezoelectric actuator hysteresis on saturation control efficiency
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[26] Feedforward compensation analysis of piezoelectric actuators using artificial neural networks with conventional PID controller and single-neuron PID based on Hebb …
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[27] Hybrid hysteresis modeling and inverse model compensation of piezoelectric actuators
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[28] Robotic Artificial Muscles: Current Progress and Future Perspectives
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[29] Improvement of Alternative Non-Raster Scanning Methods for High Speed Atomic Force Microscopy: A Review
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[30] Multi-DOF Ultrasonic Actuators for Laser Beam Positioning
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[31] Design and control of a piezoactuated microfeed mechanism for cell injection
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[32] Robust precision motion control of piezoelectric actuators using fast nonsingular terminal sliding mode with time delay estimation
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[33] PROJETO DE CONTROLADOR BACKSTEPPING ROBUSTO PARA SISTEMAS DE POSICIONAMENTO ACIONADOS POR UM ATUADOR PIEZOELÉTRICO
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[34] Enhancement of hard disk drive manipulator using piezoelectric actuator mechanisms
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[35] Discrete-Time Control Design for Tracking Control Of Piezo-Actuated Positioning Systems
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[36] PROJETO DE CONTROLADOR PID VIA LMIS PARA SISTEMAS DE POSICIONAMENTO SUJEITOS A HISTERESE E RETARDO DE TEMPO
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[37] Model-free data driven control for trajectory tracking of an amplified piezoelectric actuator
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[38] A Review of Piezoelectric Design in MEMS Scanner
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[39] Three degree of freedom piezoelectric actuator for precise positioning
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[40] Small size piezoelectric impact drive actuator with rectangular bimorphs
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[41] 一类含未知非线性迟滞的智能压电作动器鲁棒有限时间运动控制
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[42] Laser Beam Pointing Control With Piezoelectric Actuator Model Learning
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[43] The artificial neural network modelling of the piezoelectric actuator vibrations using laser displacement sensor
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[44] A Comparative Study of Open-loop and Closed-loop Control Schemes for Hysteresis in a d33-mode Piezoelectric Actuator
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[45] Linear and quadratic solid–shell finite elements SHB8PSE and SHB20E for the modeling of piezoelectric sandwich structures
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[46] New linear and quadratic prismatic piezoelectric solid–shell finite elements
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[47] A Comparative Study of Openloop and Closed-loop Control Schemes for Hysteresis in a d33-mode Piezoelectric Actuator
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[48] 一类不匹配未知干扰基于两步干扰观测器的估计
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[49] High bandwidth microgripper with integrated force sensors and position estimation for the grasp of multistiffness microcomponents
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[50] A fast non-singular terminal sliding mode control based on perturbation estimation for piezoelectric actuators systems
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[51] Optimisation globale des lois de commande de la stabilisation inertielle d'un imageur sur critère optronique: Application à un imageur à deux étages de stabilisation.
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[52] Optimisation des lois de commande d'un imageur sur critère optronique. Application à un imageur à deux étages de stabilisation.
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[53] Analysis of an operator-differential model for magnetostrictive energy harvesting
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[54] A monolithic MEMS position sensor for closed-loop high-speed atomic force microscopy
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[55] High Bandwidth Microgripper with Integrated Force Sensors and Position Estimation for the Grasp of Multi-stiffness Microcomponents
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[56] A layered shell containing patches of piezoelectric fibers and interdigitated electrodes: Finite element modeling and experimental validation
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[57] Estimation for a Class of Unknown Frequency Disturbance Using Two-Step Nonlinear Disturbance Observer
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[58] Real-space post-processing correction of thermal drift and piezoelectric actuator nonlinearities in scanning tunneling microscope images
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[59] 压电定位系统的自抗扰控制设计
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[60] Integrated terminal sliding with enhanced repetitive control for nono-positioing stage
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[61] Microrobotique et Micromécatronique pour la Réalisation de Tâches de Micro-Assemblage Complexes et Précises.
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[62] ANFIS controller based on RBF identification for piezoelectric actuator in a positioning system
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[63] An Inversion-free Predictive Controller for Piezoelectric Actuators Based on A Dynamic Linearized Neural Network Model
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[64] Neural Network Based Nonlinear Model Predictive Control for Piezoelectric Actuators
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[65] An inversion-free model predictive control with error compensation for piezoelectric actuators
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[66] An incremental Hammerstein-like modeling approach for the decoupled creep, vibration and hysteresis dynamics of piezoelectric actuator
Nonlinear Dynamics, 2015
[67] Modelling of Hysteresis in Vibration Control Systems by means of the Bouc-Wen Model
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[68] Chenkun Qi, Feng Gao, Han-Xiong Li, Shaoyuan Li, Xianchao Zhao & Yi Dong
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[69] Development of System Identification for Piezoelectric Patch Actuator
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[70] Neural-network-based nonlinear model predictive control for piezoelectric actuators
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[71] Development of System Identification for Piezoelectric Patch Actuator.
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[72] DISPLACEMENT CONTROL OF PIEZOELECTRIC PATCH ACTUATOR USING PID CONTROLLER.
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[73] Model-free force tracking control of piezoelectric actuators: Application to variable damping actuator
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[74] Recent Advances in the Control of Piezoelectric Actuators
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[75] Development of ETM microgrippers using Topology Optimization
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[76] DISPLACEMENT CONTROL OF PIEZOELECTRIC PATCH ACTUATOR USING PID CONTROLLER
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[77] Motion Control of Smart Material Based Actuators: Modeling, Controller Design and Experimental Evaluation
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