A method is proposed to design data-driven output-feedback controllers for nonlinear systems with provable exponential stability guarantees using only input-output measurements via Koopman-based bilinear surrogate models on extended states.
Learning Koopman Models From Data Under General Noise Conditions
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abstract
This paper presents a novel identification approach of Koopman models of nonlinear systems with inputs under rather general noise conditions. The method uses deep state-space encoders based on the concept of state reconstructability and an efficient multiple-shooting formulation of the squared loss of the prediction error to estimate the dynamics and the lifted state only from input-output data. Furthermore, the Koopman model structure includes an innovation noise term that is used to handle process and measurement noise. It is shown that the proposed approach is statistically consistent (estimation error tends to zero when the number of data points goes to infinity) and computationally efficient due to the multiple-shooting formulation, by which the prediction error of the model can be calculated on multiple subsections of the data in parallel. The latter allows for efficient batch optimization of the network parameters and, at the same time, excellent long-term prediction capabilities of the obtained models. The performance of the approach is illustrated by nonlinear benchmark examples and experimental data from a Crazyflie 2.1 quadcopter.
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eess.SY 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Tutorial on Koopman operator theory, data-driven methods such as EDMD, and their use in controller design for nonlinear systems with provided simulations and code.
citing papers explorer
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Koopman meets input-output data: Data-driven output-feedback control of nonlinear systems with closed-loop guarantees
A method is proposed to design data-driven output-feedback controllers for nonlinear systems with provable exponential stability guarantees using only input-output measurements via Koopman-based bilinear surrogate models on extended states.
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Koopman operator theory: fundamentals, control, and applications
Tutorial on Koopman operator theory, data-driven methods such as EDMD, and their use in controller design for nonlinear systems with provided simulations and code.