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Principle, implementation, and applications of charge control for piezo-actuated nanopositioners: A comprehensive review
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Toumi - Mechanical Systems and Signal Processing,
2022 |
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[2]
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Research on identification and active vibration control of cantilever structure based on NARX neural network
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Mechanical Systems and Signal …,
2022 |
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[3]
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A Wiener Model Identification for Creep and Vibration Linear and Hysteresis Nonlinear Dynamics of Piezoelectric Actuator
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IEEE Sensors Journal,
2021 |
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[4]
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Attaining Ultraprecision Machining by Feed Drive System Stability Control with Piezoelectric Preloading Actuators
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Applied Sciences,
2021 |
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[5]
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Polynomial-based Stability Analysis of Modified IMC-PID Controller for Piezoelectric Actuator System in Time Delay Environment
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IETE Journal of Research,
2021 |
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[6]
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Simulation of Piezoelectric Stack Actuators for Loss Component.
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… & Technology Review,
2021 |
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[7]
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Jestr r
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Journal of Engineering …,
2021 |
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[8]
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High-Bandwidth Hysteresis Modeling of Piezoelectric Actuators Based on Modified NARX Neural Network
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2021 33rd Chinese Control …,
2021 |
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[9]
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Identification and compensator design using NARX models
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2021 |
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[10]
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直线形压电致动器的研究综述
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微特电机,
2021 |
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[11]
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Investigations on piezo actuated micro XY stage for vibration-assisted micro milling
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2021 |
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[12]
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Simulations of 3D-Printable biomimetic artificial muscles based on microfluidic microcapacitors for exoskeletal actuation and stealthy underwater propulsion
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2021 |
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[13]
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The effect of geometry on the performance of amplified flexure-guided actuators
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2021 |
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[14]
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Advances in Tracking Control for Piezoelectric Actuators Using Fuzzy Logic and Hammerstein-Wiener Compensation
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2020 |
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[15]
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Tracking Control for Piezoelectric Actuators with Advanced Feed-forward Compensation Combined with PI Control
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2020 |
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[16]
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Modeling of a Piezoelectric Based Nanopositioning Stage
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2020 |
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[17]
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Sliding Mode Control with Dynamical Correction for Time-Delay Piezoelectric Actuator Systems
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2020 |
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[18]
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Feedforward Compensation Analysis of Piezoelectric Actuators Using Artificial Neural Networks with Conventional PID Controller and Single-Neuron PID Based on …
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2020 |
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[19]
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Micro-electromechanical-system actuators for biomedical applications: a review
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2020 |
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[20]
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Identification and nonlinearity compensation of hysteresis using NARX models
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2020 |
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[21]
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Quasi-rayleigh model for modeling hysteresis of piezoelectric actuators
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2020 |
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[22]
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High-precision measurements of alkanethiol self-assembled monolayer structure with scanning tunneling microscopy
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2020 |
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[23]
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Hysteresis modeling of piezoelectric actuator using particle swarm optimization-based neural network
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2020 |
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[24]
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MEMS Actuators for Biomedical Applications: A Review
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2020 |
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[25]
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Influence of piezoelectric actuator hysteresis on saturation control efficiency
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2020 |
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[26]
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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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2020 |
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[27]
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Hybrid hysteresis modeling and inverse model compensation of piezoelectric actuators
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2019 |
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[28]
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Robotic Artificial Muscles: Current Progress and Future Perspectives
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2019 |
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[29]
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Improvement of Alternative Non-Raster Scanning Methods for High Speed Atomic Force Microscopy: A Review
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2019 |
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[30]
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Multi-DOF Ultrasonic Actuators for Laser Beam Positioning
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2019 |
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[31]
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Design and control of a piezoactuated microfeed mechanism for cell injection
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2019 |
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[32]
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Robust precision motion control of piezoelectric actuators using fast nonsingular terminal sliding mode with time delay estimation
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2018 |
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[33]
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PROJETO DE CONTROLADOR BACKSTEPPING ROBUSTO PARA SISTEMAS DE POSICIONAMENTO ACIONADOS POR UM ATUADOR PIEZOELÉTRICO
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2018 |
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[34]
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Enhancement of hard disk drive manipulator using piezoelectric actuator mechanisms
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2018 |
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[35]
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Discrete-Time Control Design for Tracking Control Of Piezo-Actuated Positioning Systems
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2018 |
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[36]
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PROJETO DE CONTROLADOR PID VIA LMIS PARA SISTEMAS DE POSICIONAMENTO SUJEITOS A HISTERESE E RETARDO DE TEMPO
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2018 |
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[37]
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Model-free data driven control for trajectory tracking of an amplified piezoelectric actuator
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Sensors and Actuators A: Physical,
2018 |
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[38]
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A Review of Piezoelectric Design in MEMS Scanner
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Engineering Applications for New Materials and Technologies,
2018 |
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[39]
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Three degree of freedom piezoelectric actuator for precise positioning
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AIP Conference Proceedings,
2018 |
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[40]
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Small size piezoelectric impact drive actuator with rectangular bimorphs
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Sensors and Actuators A: Physical,
2018 |
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[41]
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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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机械科学与技术,
2018 |
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[42]
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Laser Beam Pointing Control With Piezoelectric Actuator Model Learning
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2017 |
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[43]
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The artificial neural network modelling of the piezoelectric actuator vibrations using laser displacement sensor
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Journal of Electrical Engineering,
2017 |
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[44]
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A Comparative Study of Open-loop and Closed-loop Control Schemes for Hysteresis in a d33-mode Piezoelectric Actuator
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The International Journal of Engineering and Science,
2017 |
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[45]
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Linear and quadratic solid–shell finite elements SHB8PSE and SHB20E for the modeling of piezoelectric sandwich structures
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Journal of Thermal Stresses,
2017 |
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[46]
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New linear and quadratic prismatic piezoelectric solid–shell finite elements
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Applied Mathematics and Computation,
2017 |
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[47]
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A Comparative Study of Openloop and Closed-loop Control Schemes for Hysteresis in a d33-mode Piezoelectric Actuator
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2017 |
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[48]
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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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鲁东大学学报:自然科学版,
2016 |
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[49]
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High bandwidth microgripper with integrated force sensors and position estimation for the grasp of multistiffness microcomponents
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2016 |
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[50]
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A fast non-singular terminal sliding mode control based on perturbation estimation for piezoelectric actuators systems
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Transport Reviews,
2016 |
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[51]
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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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Thesis,
2016 |
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[52]
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Optimisation des lois de commande d'un imageur sur critère optronique. Application à un imageur à deux étages de stabilisation.
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Thèse,
2016 |
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[53]
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Analysis of an operator-differential model for magnetostrictive energy harvesting
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2016 |
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[54]
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A monolithic MEMS position sensor for closed-loop high-speed atomic force microscopy
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Nanotechnology,
2016 |
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[55]
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High Bandwidth Microgripper with Integrated Force Sensors and Position Estimation for the Grasp of Multi-stiffness Microcomponents
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2016 |
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[56]
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A layered shell containing patches of piezoelectric fibers and interdigitated electrodes: Finite element modeling and experimental validation
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2016 |
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[57]
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Estimation for a Class of Unknown Frequency Disturbance Using Two-Step Nonlinear Disturbance Observer
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Proceedings of 2016 Chinese Intelligent Systems Conference,
2016 |
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[58]
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Real-space post-processing correction of thermal drift and piezoelectric actuator nonlinearities in scanning tunneling microscope images
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2016 |
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[59]
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压电定位系统的自抗扰控制设计
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2016 |
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[60]
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Integrated terminal sliding with enhanced repetitive control for nono-positioing stage
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2016 |
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[61]
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Microrobotique et Micromécatronique pour la Réalisation de Tâches de Micro-Assemblage Complexes et Précises.
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Automatique / Robotique. Université de Franche-Comté,
2015 |
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[62]
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ANFIS controller based on RBF identification for piezoelectric actuator in a positioning system
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Fuzzy and Intelligent Systems (CFIS), 2015 4th Iranian Joint Congress on,
2015 |
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[63]
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An Inversion-free Predictive Controller for Piezoelectric Actuators Based on A Dynamic Linearized Neural Network Model
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2015 |
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[64]
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Neural Network Based Nonlinear Model Predictive Control for Piezoelectric Actuators
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2015 |
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[65]
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An inversion-free model predictive control with error compensation for piezoelectric actuators
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American Control Conference (ACC), 2015,
2015 |
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[66]
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An incremental Hammerstein-like modeling approach for the decoupled creep, vibration and hysteresis dynamics of piezoelectric actuator
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Nonlinear Dynamics,
2015 |
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[67]
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Modelling of Hysteresis in Vibration Control Systems by means of the Bouc-Wen Model
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Shock and Vibration,
2015 |
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[68]
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Chenkun Qi, Feng Gao, Han-Xiong Li, Shaoyuan Li, Xianchao Zhao & Yi Dong
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2015 |
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[69]
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Development of System Identification for Piezoelectric Patch Actuator
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Applied Mechanics and Materials,
2015 |
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[70]
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Neural-network-based nonlinear model predictive control for piezoelectric actuators
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2015 |
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[71]
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Development of System Identification for Piezoelectric Patch Actuator.
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Applied Mechanics & Materials,
2015 |
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[72]
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DISPLACEMENT CONTROL OF PIEZOELECTRIC PATCH ACTUATOR USING PID CONTROLLER.
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2014 |
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[73]
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Model-free force tracking control of piezoelectric actuators: Application to variable damping actuator
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Robotics and Automation (ICRA), 2014 IEEE International Conference on. IEEE,
2014 |
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[74]
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Recent Advances in the Control of Piezoelectric Actuators
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Int J Adv Robot Syst,
2014 |
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[75]
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Development of ETM microgrippers using Topology Optimization
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Microelectronics Technology and Devices (SBMicro), 2014 29th Symposium on. IEEE,
2014 |
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[76]
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DISPLACEMENT CONTROL OF PIEZOELECTRIC PATCH ACTUATOR USING PID CONTROLLER
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2014 |
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[77]
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Motion Control of Smart Material Based Actuators: Modeling, Controller Design and Experimental Evaluation
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NULL
2013 |
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