Article ISI SCOPUS
BIO-INSPIRED SYSTEMS AND APPLICATIONS: FROM ROBOTICS TO AMBIENT INTELLIGENCE, PT II  (2004)

Multivariable generalized minimum variance control based on Artificial Neural Networks and Gaussian process models

Sbarbaro D.; Murray-Smith, R; Valdes, A

Abstract

The control of an unknown multivariable nonlinear Process represents a challenging problem. Model based approaches, like Generalized Minimum Variance, provide a flexible framework for addressing the main issues arising in the control of complex nonlinear systems. However, the final performance will depend heavily on the models representing the system. This work presents a comparative analysis of two modelling approaches for nonlinear systems, namely Artificial Neural Network (ANN) and Gaussian Processes. Their advantages and disadvantages as building blocks of a GMV controller are illustrated by simulation. © Springer-Verlag 2004.

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Título según WOS: Multivariable generalized minimum variance control based on Artificial Neural Networks and Gaussian process models
Título según SCOPUS: Multivariable generalized minimum variance control based on artificial neural networks and gaussian process models
Título de la Revista: BIO-INSPIRED SYSTEMS AND APPLICATIONS: FROM ROBOTICS TO AMBIENT INTELLIGENCE, PT II
Volumen: 3174
Editorial: SPRINGER INTERNATIONAL PUBLISHING AG
Fecha de publicación: 2004
Página de inicio: 52
Página final: 58
Idioma: English
Notas: ISI, SCOPUS