Data-Driven Control of Unknown Linear Systems via Quantized Feedback
Abstract
Control using quantized feedback is a fundamental approach to system synthesis with limited communication capacity. In this paper, we address the stabilization problem for unknown linear systems with logarithmically quantized feedback, via a direct data-driven control method. By leveraging a recently developed matrix S-lemma, we prove a sufficient and necessary condition for the existence of a common stabilizing controller for all possible dynamics consistent with data, in the form of a linear matrix inequality. Moreover, we formulate a semi-definite programming problem to solve the coarsest quantization density. By establishing its connections to unstable eigenvalues of the state matrix, we further prove a necessary rank condition on the data for quantized feedback stabilization. Finally, we validate our theoretical results by numerical examples.
Cite
Text
Zhao et al. "Data-Driven Control of Unknown Linear Systems via Quantized Feedback." Proceedings of The 4th Annual Learning for Dynamics and Control Conference, 2022.Markdown
[Zhao et al. "Data-Driven Control of Unknown Linear Systems via Quantized Feedback." Proceedings of The 4th Annual Learning for Dynamics and Control Conference, 2022.](https://mlanthology.org/l4dc/2022/zhao2022l4dc-datadriven/)BibTeX
@inproceedings{zhao2022l4dc-datadriven,
title = {{Data-Driven Control of Unknown Linear Systems via Quantized Feedback}},
author = {Zhao, Feiran and Li, Xingchen and You, Keyou},
booktitle = {Proceedings of The 4th Annual Learning for Dynamics and Control Conference},
year = {2022},
pages = {467-479},
volume = {168},
url = {https://mlanthology.org/l4dc/2022/zhao2022l4dc-datadriven/}
}