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Stable receding horizon control based on recurrent networks

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4 Author(s)
C. Kambhampati ; Dept. of Cybern., Reading Univ., UK ; A. Delgado ; J. D. Mason ; K. Warwick

The last decade has seen the reemergence of artificial neural networks as an alternative to traditional modelling techniques for the control of nonlinear systems. Numerous control schemes have been proposed and have been shown to work in simulations. However, very few analyses have been made of the working of these networks. The authors show that a receding horizon control strategy based on a class of recurrent networks can stabilise nonlinear systems

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IEE Proceedings - Control Theory and Applications  (Volume:144 ,  Issue: 3 )