Stochastic MPC With Robustness to Bounded Parameteric Uncertainty

Article

Arcari, Elena; Iannelli, Andrea; Carron, Andrea; Zeilinger, Melanie N.

Swiss Federal Institutes of Technology Domain; ETH Zurich; University of Stuttgart

IEEE TRANSACTIONS ON AUTOMATIC CONTROL

0018-9286

10.1109/TAC.2023.3294868

2023

7601-7615

In this article, we present a stochastic model predictive control approach for discrete-time LTI systems subject to bounded parameteric uncertainty and potentially unbounded stochastic additive noise. The proposed scheme makes use of homothetic tubes along the prediction horizon for a robust treatment of parameteric uncertainty. Stochastic noise is handled by tightening constraints using the concept of probabilistic reachable sets (PRS), which are typically constructed offline by exploiting noise distribution information. In order to address the presence of additional parameteric uncertainty, we introduce a strategy for generating robustified PRS based only on the first and second moments of the noise sequence. In the case of quadratic cost functions, and under a further independent identically distributed assumption on the noise distribution, we also provide an average asymptotic performance bound for the l2-norm of the closed-loop state. Finally, the proposed approach is demonstrated in both an illustrative example, and for a building temperature control problem.