Learning Robust State Observers using Neural ODEs (longer version)

Learning Robust State Observers using Neural ODEs (longer version)

Relying on recent research results on Neural ODEs, this paper presents a methodology for the design of state observers for nonlinear systems based on Neural ODEs, learning Luenberger-like observers and their nonlinear extension (Kazantzis-Kravaris-Luenberger (KKL) observers) for systems with partial...

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Bibliographische Detailangaben
Hauptverfasser: Miao, Keyan, Gatsis, Konstantinos
Format: Artikel
Sprache:eng
Schlagworte:
Computer Science - Learning
Computer Science - Systems and Control
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Beschreibung
Zusammenfassung:Relying on recent research results on Neural ODEs, this paper presents a methodology for the design of state observers for nonlinear systems based on Neural ODEs, learning Luenberger-like observers and their nonlinear extension (Kazantzis-Kravaris-Luenberger (KKL) observers) for systems with partially-known nonlinear dynamics and fully unknown nonlinear dynamics, respectively. In particular, for tuneable KKL observers, the relationship between the design of the observer and its trade-off between convergence speed and robustness is analysed and used as a basis for improving the robustness of the learning-based observer in training. We illustrate the advantages of this approach in numerical simulations.
DOI:10.48550/arxiv.2212.00866