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1996 International Workshop on Neural Networks for Identification, Control, Robotics, and Signal/Image Processing (NICROSP '96)
Control Architecture Based on Radial Basis Function Network. Application to a Fluid Level System
Venice, ITALY
August 21-August 23
ISBN: 0-8186-7456-3
ASCII Text
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J. Fernández de Canete, A. García-Cerezo, I. García-Moral, A. García-González, C. Macías, "Control Architecture Based on Radial Basis Function Network. Application to a Fluid Level System," Neural Networks for Identification, Control, and Robotics, International Workshop, pp. 0254, 1996 International Workshop on Neural Networks for Identification, Control, Robotics, and Signal/Image Processing (NICROSP '96), 1996.
 
 
BibTex
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@article{ 10.1109/NICRSP.1996.542767,
author = {J. Fernández de Canete and A. García-Cerezo and I. García-Moral and A. García-González and C. Macías},
title = {Control Architecture Based on Radial Basis Function Network. Application to a Fluid Level System},
journal ={Neural Networks for Identification, Control, and Robotics, International Workshop},
volume = {0},
year = {1996},
isbn = {0-8186-7456-3},
pages = {0254},
doi = {http://doi.ieeecomputersociety.org/10.1109/NICRSP.1996.542767},
publisher = {IEEE Computer Society},
address = {Los Alamitos, CA, USA},
}
 
 
RefWorks Procite/RefMan/Endnote
x 
 
TY - CONF
JO - Neural Networks for Identification, Control, and Robotics, International Workshop
TI - Control Architecture Based on Radial Basis Function Network. Application to a Fluid Level System
SN - 0-8186-7456-3
SP
EP
A1 - J. Fernández de Canete,
A1 - A. García-Cerezo,
A1 - I. García-Moral,
A1 - A. García-González,
A1 - C. Macías,
PY - 1996
VL - 0
JA - Neural Networks for Identification, Control, and Robotics, International Workshop
ER -
 
J. Fernández de Canete, Escuela de Lngenieros Industriales, MALAGA, SPAIN
A. García-Cerezo, Escuela de Lngenieros Industriales, MALAGA, SPAIN
I. García-Moral, Escuela de Lngenieros Industriales, MALAGA, SPAIN
A. García-González, Escuela de Lngenieros Industriales, MALAGA, SPAIN
C. Macías, Escuela de Lngenieros Industriales, MALAGA, SPAIN
Non-linear Radial Basis Functions (RBF) at single layer hidden units of a neural net have proven to be effective in generating complex non-linear mapping and at the same time facilitate fast learning. In the present paper off-line gaussian control and identification of general nonlinear plants are realized. An iterative method to determine the desired controller output is described, and based upon this, a neural controller is adjusted by using the orthogonal least squares method. Neural identification of the plant is necessary to derive the parameter adjustments of the neural controller. The performance of the gaussian approach has been demonstrated by off-line reference model neural control. Applications both to a general nonlinear plant and to a highly non-linear fluid level system are detailed. It is shown that training times with orthogonal least squares method are dramatically reduced during control compared to standard backpropagation-of-the-error-through-the-plant technique. Finally, neural control is compared to PI control, showing the neural approach better generalization properties.
Citation:
J. Fernández de Canete, A. García-Cerezo, I. García-Moral, A. García-González, C. Macías, "Control Architecture Based on Radial Basis Function Network. Application to a Fluid Level System," nicrosp, pp.0254, 1996 International Workshop on Neural Networks for Identification, Control, Robotics, and Signal/Image Processing (NICROSP '96), 1996
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