English

Stabilizing Tube-Based Model Predictive Control: Terminal Set and Cost Construction for LPV Systems (extended version)

Systems and Control 2017-06-27 v2

Abstract

This paper presents a stabilizing tube-based MPC synthesis for LPV systems. We employ terminal constraint sets which are required to be controlled periodically contractive. Periodically (or finite-step) contractive sets are easier to compute and can be of lower complexity than "true" contractive ones, lowering the required computational effort both off-line and on-line. Under certain assumptions on the tube parameterization, recursive feasibility of the scheme is proven. Subsequently, asymptotic stability of the origin is guaranteed through the construction of a suitable terminal cost based on a novel Lyapunov-like metric for compact convex sets containing the origin. A periodic variant on the well-known homothetic tube parameterization that satisfies the necessary assumptions and yields a tractable LPV MPC algorithm is derived. The resulting MPC algorithm requires the on-line solution of a single linear program with linear complexity in the prediction horizon. The properties of the approach are demonstrated by a numerical example.

Keywords

Cite

@article{arxiv.1702.05393,
  title  = {Stabilizing Tube-Based Model Predictive Control: Terminal Set and Cost Construction for LPV Systems (extended version)},
  author = {Jurre Hanema and Mircea Lazar and Roland Tóth},
  journal= {arXiv preprint arXiv:1702.05393},
  year   = {2017}
}

Comments

This is an extended version of a paper accepted to Automatica. The previous version of this preprint was an extended version of the submitted, not yet accepted, manuscript. pdflatex, 10 pages, 4 figures

R2 v1 2026-06-22T18:21:21.287Z