Title :
Dynamical system modelling using radial basis functions
Author :
Mann, Iain ; Mclaughlin, Steve
Author_Institution :
Dept. of Electron. & Electr. Eng., Edinburgh Univ., UK
Abstract :
The problem of modelling complex, chaotic dynamical systems is considered. A radial basis function (RBF) neural network is used to learn the system dynamics, and is then operated in free-running mode to generate time series which have very similar dynamical properties to those of the original training data. In our RBF network it is possible to fix the centre positions on a data-independent hyper-lattice which implies that only the linear-in-the-parameters weights need to be learnt for each different systems. This leads to a compact, efficient structure which, with regularisation applied to the learning of the weights, produces a correct, stable output. The dynamics of the synthesised system are verified by examining both the correlation dimension and Lyapunov exponents
Keywords :
Lyapunov methods; chaos; correlation theory; learning (artificial intelligence); nonlinear dynamical systems; radial basis function networks; time series; Lyapunov exponents; RBF network; complex chaotic dynamical systems; correct stable output; correlation dimension; data-independent hyper-lattice; dynamical system modelling; learning; linear-in-the-parameters weights; radial basis function neural network; time series; training data; Chaos; Lattices; Network synthesis; Neural networks; Oscillators; Radial basis function networks; Robustness; Speech synthesis; Stability; Training data;
Conference_Titel :
Adaptive Systems for Signal Processing, Communications, and Control Symposium 2000. AS-SPCC. The IEEE 2000
Conference_Location :
Lake Louise, Alta.
Print_ISBN :
0-7803-5800-7
DOI :
10.1109/ASSPCC.2000.882519
