Title :
An Integerated Estimation and Control Scheme for Piece-Wise Linear Systems using Neural Networks
Author :
Elramsisi, A.M. ; Zohdy, M.A. ; Fadali, M.S.
Author_Institution :
Deprt. of Elec. and Sys Eng., Oakland University, Rochester, MI 48309-4401
Abstract :
Identification of the parameters and the structure of nonlinear discrete-time system models, in the joint frequency-position space, is investigated by using neural networks. A dynamical neuron model is first introduced. The neuron characteristic function NCF of the model, at higher values of signal to noise ratio SNR, resembles Gabor basis fuctions GBF. A simplification to the GBF´s is also presented, where the spatial Gaussian envelope of GBF´s is replaced with a triangular one. The neuron model is then encompassed in a three-layered neural net for parameter and structure identification. Simulation results, necessary modifications to improve convergence of the network, and possible extensions for this work are provided.
Keywords :
Control systems; Convergence; Delay; Frequency domain analysis; Neural networks; Neurons; Piecewise linear techniques; Signal to noise ratio; Steady-state; Uncertainty; GBF: Gabor basis functions; MGBF: Modified Gabor basis functions; NN: Neural network; SNR: Signal to noise ratio; TGBF: Triangular gabor basis functions; equation;
Conference_Titel :
American Control Conference, 1990
Conference_Location :
San Diego, CA, USA
