Probability distribution modelling to improve stability in nonlinear MIMO control


Autoria(s): Herzallah, Randa; Lowe, David
Data(s)

25/06/2003

Resumo

We consider the direct adaptive inverse control of nonlinear multivariable systems with different delays between every input-output pair. In direct adaptive inverse control, the inverse mapping is learned from examples of input-output pairs. This makes the obtained controller sub optimal, since the network may have to learn the response of the plant over a larger operational range than necessary. Moreover, in certain applications, the control problem can be redundant, implying that the inverse problem is ill posed. In this paper we propose a new algorithm which allows estimating and exploiting uncertainty in nonlinear multivariable control systems. This approach allows us to model strongly non-Gaussian distribution of control signals as well as processes with hysteresis. The proposed algorithm circumvents the dynamic programming problem by using the predicted neural network uncertainty to localise the possible control solutions to consider.

Formato

application/pdf

Identificador

http://eprints.aston.ac.uk/1369/1/Proceedings_of_2003_IEEE_Conference_on_Control_Applications_(CCA).pdf

Herzallah, Randa and Lowe, David (2003). Probability distribution modelling to improve stability in nonlinear MIMO control. IN: Proceedings of 2003 IEEE Conference on Control Applications (CCA). IEEE.

Publicador

IEEE

Relação

http://eprints.aston.ac.uk/1369/

Tipo

Book Section

NonPeerReviewed