Title :
Fixed-weight controller for multiple systems
Author :
Feldkamp, L.A. ; Puskorius, G.V.
Author_Institution :
Res. Lab., Ford Motor Co., Dearborn, MI, USA
Abstract :
We demonstrate here a perhaps unexpected result: the ability of a single fixed-weight time-lagged recurrent network, properly trained, to act as a stabilizing controller for multiple (here 3) distinct and unrelated systems, without explicit knowledge of system identity. This capability, which may be regarded as a challenge to the usual understanding of what constitutes an adaptive system, seemed plausible to us on the basis of our earlier results on both multiple time-series prediction and robust controller training. We describe our training method, which has been enhanced toward enforcing stability of the closed-loop system and dealing with process noise, and provide some results
Keywords :
Gaussian distribution; closed loop systems; learning (artificial intelligence); neurocontrollers; recurrent neural nets; stability; adaptive system; closed-loop system; fixed-weight controller; fixed-weight time-lagged recurrent network; multiple systems; stabilizing controller; Adaptive systems; Automotive engineering; Control systems; Engines; Laboratories; Noise robustness; Robust control; Stability; Switches; Veins;
Conference_Titel :
Neural Networks,1997., International Conference on
Conference_Location :
Houston, TX
Print_ISBN :
0-7803-4122-8
DOI :
10.1109/ICNN.1997.616120
