A Data-Driven Trajectory Representation for Nonlinear Systems under quasi-Linear Parameter Varying Embeddings
Résumé
Recent literature has shown how linear timeinvariant (LTI) systems can be represented through trajectorybased features, relying on a single measured input-output (IO) trajectory dictionary, as long as the input is persistently exciting. The so-called behavioural framework is a promising alternative for controller synthesis without the necessity of system identification. In this paper, we extend and translate previous results to a wide class of nonlinear systems, using quasi-Linear Parameter Varying (qLPV) embeddings along suitable IO coordinates. Accordingly, we show how nonlinear data-driven simulation and predictions can be made based on the proposed qLPV approach. A parameter-dependent dissipativity analysis verification setup is also given. Realistic results are included to demonstrate the effectiveness of the tools. (Submitted to the 61st IEEE Conference on Decision and Control)
[Paper under corrections, a new version will be uploaded soon.]
Domaines
Automatique / RobotiqueOrigine | Fichiers produits par l'(les) auteur(s) |
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