Sparse Sensing, Communication, and Actuation via Self-Triggered Control Algorithms
Systems and Control
2018-12-24 v1
Abstract
We propose a self-triggered control algorithm to reduce onboard processor usage, communication bandwidth, and energy consumption across a linear time-invariant networked control system. We formulate an optimal control problem by penalizing the l0-measures of the feedback gain and the vector of control inputs and maximizing the dwell time between the consecutive triggering times. It is shown that the corresponding l1-relaxation of the optimal control problem is feasible and results in a stabilizing feedback control law with guaranteed performance bounds, while providing a sparse schedule for collecting samples from sensors, communication with other subsystems, and activating the input actuators.
Cite
@article{arxiv.1812.08964,
title = {Sparse Sensing, Communication, and Actuation via Self-Triggered Control Algorithms},
author = {MirSaleh Bahavarnia and Hossein K. Mousavi and Nader Motee},
journal= {arXiv preprint arXiv:1812.08964},
year = {2018}
}
Comments
Submitted to Automatica