Title :
Modeling of micro-dispalcement stage based on diagonal recurrent neural network
Author :
Wei, Qiang ; Hu, Chengzhong ; Zhang, Yulin
Author_Institution :
Dept. of Phys. & Electron. Sci., Taishan Univ., Taian
Abstract :
A novel methodology is proposed in this paper for real-time modeling of a nanometer scale positioning stage driven by the piezoelectric ceramics. The precision of the stage is limited by the intrinsic nonlinear and hysteretic behaviors of the actuator. By integrating a second-order linear dynamics and a diagonal recurrent neural network, a nonlinear dynamic model is developed and experimentally validated. Stage positioning data are used to train the network. The error of the model is reduced by adjusting parameters on-line. The results of experiment show that the average error and the maximum error within the main journey of 80 mum are reduced to 80 nm and 110 nm, respectively. The positioning precision is improved compared with the traditional Preisach model.
Keywords :
microactuators; neurocontrollers; nonlinear dynamical systems; piezoceramics; piezoelectric actuators; recurrent neural nets; Preisach model; diagonal recurrent neural network; intrinsic nonlinear actuator; micro-dispalcement stage model; nanometer scale positioning stage; nonlinear dynamic model; piezoelectric ceramic; second-order linear dynamics; Aerodynamics; Artificial neural networks; Biological neural networks; Ceramics; Electron beams; Frequency; Hysteresis; Nanobioscience; Piezoelectric actuators; Recurrent neural networks; Nano positioning; Neural Network; Piezoelectric actuator; Precision stage; System identification;
Conference_Titel :
Automation and Logistics, 2008. ICAL 2008. IEEE International Conference on
Conference_Location :
Qingdao
Print_ISBN :
978-1-4244-2502-0
Electronic_ISBN :
978-1-4244-2503-7
DOI :
10.1109/ICAL.2008.4636672
