A continuous-time fundamental lemma and its application in data-driven optimal control

A continuous-time fundamental lemma and its application in data-driven optimal control

Data-driven control of discrete-time and continuous-time systems is of tremendous research interest. In this paper, we explore data-driven optimal control of continuous-time linear systems using input–output data. Based on a density result, we rigorously derive error bounds for finite-order polynomi...

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Veröffentlicht in:Systems & control letters 2024-12, Vol.194, p.105950, Article 105950
Hauptverfasser: Schmitz, Philipp, Faulwasser, Timm, Rapisarda, Paolo, Worthmann, Karl
Format: Artikel
Sprache:eng
Schlagworte:
Continuous time
Data-driven control
Differential flatness
Identifiable
Persistency of excitation
Polynomial approximation
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Zusammenfassung:Data-driven control of discrete-time and continuous-time systems is of tremendous research interest. In this paper, we explore data-driven optimal control of continuous-time linear systems using input–output data. Based on a density result, we rigorously derive error bounds for finite-order polynomial approximations of elements of the system behavior. To this end, we leverage a link between latent variables and flat outputs of controllable systems. Combined with a continuous-time counterpart of Willems et al.’s fundamental lemma, we characterize the suboptimality resulting from polynomial approximations in data-driven linear–quadratic optimal control. Finally, we draw upon a numerical example to illustrate our results.
ISSN:0167-6911
DOI:10.1016/j.sysconle.2024.105950