DocumentCode
1042961
Title
Fourier-Neural-Network-Based Learning Control for a Class of Nonlinear Systems With Flexible Components
Author
Zuo, Wei ; Zhu, Yang ; Cai, Lilong
Author_Institution
HyFun Technol. Ltd., Kowloon
Volume
20
Issue
1
fYear
2009
Firstpage
139
Lastpage
151
Abstract
This paper considers an output feedback learning control for a class of uncertain nonlinear systems with flexible components. The distinct time delay caused by system flexibility leads to the phase lag phenomenon and low system bandwidth. Therefore, the tracking problem of such systems is very difficult and challenging. To improve the tracking performance of such systems, an iterative learning control scheme using the Fourier neural network (FNN) is presented in this paper. This scheme uses only local output information for feedback. FNN employs orthogonal complex Fourier exponentials as its activation functions and the physical meaning of its hidden-layer neurons is clear. The FNN-based learning controller introduced here relies on the frequency-domain method, which converts the tracking problem in the time domain into a number of regulation problems in the frequency domain. A novel phase compensation method is introduced to deal with the phase lag phenomenon, so that the bandwidth of the closed-loop system is increased. Experiments on a belt-driven positioning table are conducted to show the effectiveness of the proposed controller.
Keywords
Fourier analysis; adaptive control; closed loop systems; compensation; delays; feedback; frequency-domain analysis; iterative methods; learning systems; neurocontrollers; nonlinear control systems; time-domain analysis; tracking; transfer functions; uncertain systems; Fourier neural network; activation function; belt-driven positioning table; closed-loop system; flexible component; frequency-domain method; iterative learning control; low system bandwidth; orthogonal complex Fourier exponential; output feedback; phase compensation method; phase lag phenomenon; time delay; time domain analysis; tracking problem; uncertain nonlinear system; Fourier neural network (FNN); iterative learning control; orthogonal activation function; output feedback; phase compensation; Algorithms; Artificial Intelligence; Feedback; Fourier Analysis; Neural Networks (Computer); Nonlinear Dynamics; Physical Processes; Time Factors;
fLanguage
English
Journal_Title
Neural Networks, IEEE Transactions on
Publisher
ieee
ISSN
1045-9227
Type
jour
DOI
10.1109/TNN.2008.2006496
Filename
4721594
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