ForschungPublikationen
Data-Driven Model Predictive Control with Stability and Robustness Guarantees

Data-Driven Model Predictive Control with Stability and Robustness Guarantees

Kategorien Zeitschriftenartikel
Jahr 2020
Autoren Berberich, Julian; Köhler, Johannes; Müller, Matthias A. & Allgöwer, Frank
Veröffentlicht in IEEE Transactions on Automatic Control
Beschreibung

We propose a robust data-driven model predictive control (MPC) scheme to control linear time-invariant (LTI) systems. The scheme uses an implicit model description based on behavioral systems theory and past measured trajectories. In particular, it does not require any prior identification step, but only an initially measured input-output trajectory as well as an upper bound on the order of the unknown system. First, we prove exponential stability of a nominal data-driven MPC scheme with terminal equality constraints in the case of no measurement noise. For bounded additive output measurement noise, we propose a robust modification of the scheme, including a slack variable with regularization in the cost. We prove that the application of this robust MPC scheme in a multi-step fashion leads to practical exponential stability of the closed loop w.r.t. the noise level. The presented results provide the first (theoretical) analysis of closed-loop properties, resulting from a simple, purely data-driven MPC scheme.

DOI 10.1109/TAC.2020.3000182
arXiv 1906.04679