Stabilizing Model Predictive Controllers for Randomly Switching Max-Plus-Linear Systems

Reference

T. van den Boom and B. De Schutter, "Stabilizing Model Predictive Controllers for Randomly Switching Max-Plus-Linear Systems," Proceedings of the European Control Conference 2007 (ECC'07), Kos, Greece, pp. 4952-4959, July 2007.

Abstract

Randomly switching max-plus-linear (RSMPL) systems are discrete event systems that can switch between different modes of operation, where the switching is a stochastic process. In each mode the system is described by a max-plus-linear state equation and a max-plus-linear output equation, with different system matrices for each mode. We discuss conditions for stability and derive a stabilizing model predictive controller for RSMPL systems.

Downloads

Corresponding technical report: pdf file (313 KB)

Bibtex entry

@inproceedings{vanDeS:06-031,
author={T. van den Boom and B. {D}e Schutter},
title={Stabilizing Model Predictive Controllers for Randomly Switching Max-Plus-Linear Systems},
booktitle={Proceedings of the European Control Conference 2007 (ECC'07)},
address={Kos, Greece},
pages={4952--4959},
month=jul,
year={2007}
}

Go to the publications overview page.

This page is maintained by Bart De Schutter. Last update: February 21, 2026.