Lian, YingzhaoJiang, YuningStricker, NaomiThiele, LotharJones, Colin N.2022-01-312022-01-312022-01-312022-01-0110.1109/LCSYS.2021.3132654https://infoscience.epfl.ch/handle/20.500.14299/184889WOS:000730527300003The wide adoption of wireless devices in the Internet of Things requires controllers that are able to operate with limited resources, such as battery life. Operating these devices robustly in an uncertain environment, while managing available resources, increases the difficultly of controller design. This letter proposes a robust self-triggered model predictive control approach to optimize a control objective while managing resource consumption. In particular, a novel zero-order-hold aperiodic discrete-time feedback control law is developed to ensure robust constraint satisfaction for continuous-time linear systems.Automation & Control Systemsfeedback controlellipsoidsdynamic schedulingbatteriespredictive controluncertaintyinternet of thingsrobust optimal controlself-triggered model predictive controlconstrained linear-systemsmpctext::journal::journal article::research article