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Published January 19, 2024 | Version v1
Conference paper Open

A Generalized Stopping Criterion for Real-Time MPC with Guaranteed Stability

Description

Most of the real-time implementations of the stabilizing optimal control actions suffer from the necessity to provide high computational effort. This paper presents a cutting-edge approach for real-time evaluation of linear-quadratic model predictive control (MPC) that employs a novel generalized stopping criterion, achieving asymptotic stability in the presence of input constraints. The proposed method evaluates a fixed number of iterations independent of the initial condition, eliminating the necessity for computationally expensive methods. We demonstrate the effectiveness of the introduced technique by its implementation of two widely-used first-order optimization methods: the projected gradient descent method (PGDM) and the alternating directions method of multipliers (ADMM). The numerical simulation confirmed a significantly reduced number of iterations, resulting in sub-optimality rates of less than 2 %, while the effort reductions exceeded 80 %. These results nominate the proposed criterion for an efficient real-time implementation method of MPC controllers.

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Funding

FrontSeat – Fostering Opportunities Towards Slovak Excellence in Advanced Control for Smart Industries 101079342
European Commission