Title :
Computationally efficient neural predictive control based on a feedforward architecture
Author :
Kuure-Kinsey, Matthew ; Cutright, Rick ; Bequette, B. Wayne
Author_Institution :
Isermann Dept. of Chem. & Biol. Eng., Rensselaer Polytech. Inst., Troy, NY
Abstract :
A new strategy for integrating system identification and predictive control is proposed. A novel feedforward neural network architecture is developed that allows the nonlinearity to be mapped onto a linear time varying term. The linear time varying neural network model is augmented with a Kalman filter to provide unmeasured disturbance estimation and compensation for model uncertainty. The structure of the model lends itself naturally to a neural predictive control formulation. The computational requirement of this strategy is significantly lower than that of optimization of the nonlinear neural network model, with comparable control performance, as illustrated on a challenging nonlinear chemical reactor with input multiplicity
Keywords :
Kalman filters; feedforward neural nets; identification; neural net architecture; neurocontrollers; predictive control; time-varying systems; Kalman filter; compensation; disturbance estimation; feedforward neural network architecture; input multiplicity; linear time varying neural network model; model uncertainty; neural predictive control; nonlinear chemical reactor; nonlinear neural network model; system identification; Biological control systems; Biology computing; Computer architecture; Feedforward neural networks; Neural networks; Nonlinear systems; Optimal control; Power engineering computing; Predictive control; Predictive models;
Conference_Titel :
American Control Conference, 2006
Conference_Location :
Minneapolis, MN
Print_ISBN :
1-4244-0209-3
Electronic_ISBN :
1-4244-0209-3
DOI :
10.1109/ACC.2006.1657169
