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Paper detail

Computationally Efficient Robust Model Predictive Control for Uncertain System Using Causal State-Feedback Parameterization

This paper investigates the problem of robust model predictive control (RMPC) of linear-time-invariant (LTI) discrete-time systems subject to structured uncertainty and bounded disturbances. Typically, the constrained RMPC problem with state-feedback parameterizations is nonlinear (and nonconvex) with a prohibitively high computational burden for online implementation. To remedy this, a novel approach is proposed to linearize the state-feedback RMPC problem, with minimal conservatism, through the use of semidefinite relaxation techniques. The proposed algorithm computes the state-feedback gain and perturbation online by solving a linear matrix inequality (LMI) optimization that, in comparison to other schemes in the literature is shown to have a substantially reduced computational burden without adversely affecting the tracking performance of the controller. Additionally, an offline strategy that provides initial feasibility on the RMPC problem is presented. The effectiveness of the proposed scheme is demonstrated through numerical examples from the literature.

preprint2022arXivOpen access
Anastasis GeorgiouFurqan TahirImad M. JaimoukhaSimos A. Evangelou
Systems and Controleess.SY
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Anastasis GeorgiouFurqan TahirImad M. JaimoukhaSimos A. Evangelou

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