Modeling nonlinear control systems via Koopman control family: universal forms and subspace invariance proximity

M. Haseli, J. Cortés
Automatica, submitted

Abstract

This paper introduces the Koopman Control Family (KCF), a mathematical framework for modeling general discrete-time nonlinear control systems with the aim of providing a solid theoretical foundation for the use of Koopman-based methods in systems with inputs. We demonstrate that the concept of KCF can completely capture the behavior of nonlinear control systems on a (potentially infinite-dimensional) function space. By employing a generalized notion of subspace invariance under the KCF, we establish a universal form for finite-dimensional models, which encompasses the commonly used linear, bilinear, and linear switched models as specific instances. In cases where the subspace is not invariant under the KCF, we propose a method for approximating models in general form and characterize the model's accuracy using the concept of invariance proximity. The proposed framework naturally lends itself to the incorporation of data-driven methods in modeling and control.

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