DocumentCode
2309615
Title
A stochastic method for neural-adaptive control of multi-modal nonlinear systems
Author
Kadirkamanathan, V. ; Fabri, S.G.
Author_Institution
Sheffield Univ., UK
Volume
1
fYear
1998
fDate
1-4 Sep 1998
Firstpage
49
Abstract
The multiple model adaptive control approach is extended to a class of nonlinear stochastic systems whose underlying functions are unknown and which can change arbitrarily in time. Gaussian radial basis function neural networks are used to learn the nonlinear functions characterising the different plant modes online, without resorting to a separate learning phase. Function estimation, mode change detection and control signal generation are based on probabilistic techniques utilising concepts of Kalman filtering, the multiple model algorithm and dual control
Keywords
nonlinear control systems; Gaussian radial basis function neural networks; Kalman filtering; control signal generation; dual control; function estimation; mode change detection; multi-modal nonlinear systems; multiple model adaptive control approach; neural-adaptive control; nonlinear function learning; nonlinear stochastic systems; probabilistic techniques; stochastic method; unknown underlying functions;
fLanguage
English
Publisher
iet
Conference_Titel
Control '98. UKACC International Conference on (Conf. Publ. No. 455)
Conference_Location
Swansea
ISSN
0537-9989
Print_ISBN
0-85296-708-X
Type
conf
DOI
10.1049/cp:19980200
Filename
727845
Link To Document