Szczegóły

Tytuł artykułu

Modelling of Mechanical Behaviour of High-Frequency Piezoelectric Actuators Using Bouc-Wen Model

Tytuł czasopisma

Metrology and Measurement Systems

Rocznik

2017

Wolumin

vol. 24

Numer

No 2

Autorzy

Słowa kluczowe

piezoelectric actuators ; Bouc-Wen model ; parameters identification

Wydział PAN

Nauki Techniczne

Zakres

413–424

Wydawca

Polish Academy of Sciences Committee on Metrology and Scientific Instrumentation

Data

2017.06.30

Typ

Artykuły / Articles

Identyfikator

DOI: 10.1515/mms-2017-0022 ; ISSN 2080-9050, e-ISSN 2300-1941

Źródło

Metrology and Measurement Systems; 2017; vol. 24; No 2; 413–424

Referencje

Wen (1976), Method for random vibration of hysteretic systems - ASCE, Eng Mech, 102, 249. ; Wang (2011), A phenomenological model for pre - stressed piezoelectric ceramic stack actuators, Smart Mater Struct, 20, 035018. ; Lin (2012), Tracking control of a biaxial piezo - actuated positioning stage using generalized Duhem model, Comput Math Appl, 64, 766. ; Wang (2015), Modeling and identification of asymmetric Bouc - Wen hysteresis for piezoelectric actuator via a novel differential evolution algorithm, Sensors Phys, 235. ; Low (1995), Modeling of three - layer piezoelectric bimorph beam with hysteresis, IEEE Microelectromech Syst, 4, 230. ; Gu (2011), Modeling of rate - dependent hysteresis in piezoelectric actuators using a family of ellipses, Sensors Phys, 165. ; Zhu (2016), Hysteresis modeling and displacement control of piezoelectric actuators with the frequency - dependent behavior using a generalized Bouc - Wen model, Precis Eng, 43. ; Sohrabi (2015), Nonlinear and time dependent behaviors of piezoelectric materials and structures, Int J Mech Sci, 94. ; Luo (2006), Application of the wavelet transforms on axial strain calculation in ultrasound elastography, Prog Nat Sci, 16, 942. ; Wang (2012), A Hammerstein - based model for rate - dependent hysteresis in piezoelectric actuator of the th Chinese Control and Decision Conference China, Proc, 24, 1391. ; Ha (2006), A comparison of fitness functions for the identification of a piezoelectric hysteretic actuator based on the real - coded genetic algorithm, Sensors Phys, 132. ; Wang (2014), Simultaneous compensation of hysteresis and creep in a single piezoelectric actuator by open - loop control for quasi - static space active optics applications, Control Eng Pract, 33. ; Wang (2015), High - speed and precision control of a piezoelectric positioner with hysteresis , resonance and disturbance compensation, Microsyst Technol, 11. ; Zhu (2012), Non - symmetrical Bouc - Wen model for piezoelectric ceramic actuators, Sensors Phys, 181. ; Liu (2013), Modeling of hysteresis in piezoelectric actuator based on adaptive filter, Sensors Phys, 189. ; Xu (2013), Identification and compensation of piezoelectric hysteresis without modeling hysteresis inverse, IEEE Ind Electron, 60, 3927.

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