A Resource-Aware Approach to Self-Triggered Model Predictive Control: Extended Version
Abstract
In this paper, we consider a self-triggered formulation of model predictive control. In this variant, the controller decides at the current sampling instant itself when the next sample should be taken and the optimization problem be solved anew. We incorporate a pointwise-in-time resource constraint into the optimization problem, whose exact form can be chosen by the user. Thereby, the proposed scheme is made resource-aware with respect to a universal resource, which may pertain in practice for instance to communication, computation, energy or financial resources. We show that by virtue of the pointwise-in-time constraints, also a transient and an asymptotic average constraint on the resource usage are guaranteed. Furthermore, we derive conditions on the resource under which the proposed scheme achieves recursive feasibility and convergence. Finally, we demonstrate our theoretical results in a numerical example.
Cite
@article{arxiv.1911.10799,
title = {A Resource-Aware Approach to Self-Triggered Model Predictive Control: Extended Version},
author = {Stefan Wildhagen and Colin N. Jones and Frank Allgöwer},
journal= {arXiv preprint arXiv:1911.10799},
year = {2020}
}
Comments
Extended version of the final submission to IFAC WC 2020