English

Layered Multirate Control of Constrained Linear Systems

Systems and Control 2025-04-15 v1 Systems and Control

Abstract

Layered control architectures have been a standard paradigm for efficiently managing complex constrained systems. A typical architecture consists of: i) a higher layer, where a low-frequency planner controls a simple model of the system, and ii) a lower layer, where a high-frequency tracking controller guides a detailed model of the system toward the output of the higher-layer model. A fundamental problem in this layered architecture is the design of planners and tracking controllers that guarantee both higher- and lower-layer system constraints are satisfied. Toward addressing this problem, we introduce a principled approach for layered multirate control of linear systems subject to output and input constraints. Inspired by discrete-time simulation functions, we propose a streamlined control design that guarantees the lower-layer system tracks the output of the higher-layer system with computable precision. Using this design, we derive conditions and present a method for propagating the constraints of the lower-layer system to the higher-layer system. The propagated constraints are integrated into the design of an arbitrary planner that can handle higher-layer system constraints. Our framework ensures that the output constraints of the lower-layer system are satisfied at all high-level time steps, while respecting its input constraints at all low-level time steps. We apply our approach in a scenario of motion planning, highlighting its critical role in ensuring collision avoidance.

Keywords

Cite

@article{arxiv.2504.10461,
  title  = {Layered Multirate Control of Constrained Linear Systems},
  author = {Charis Stamouli and Anastasios Tsiamis and Manfred Morari and George J. Pappas},
  journal= {arXiv preprint arXiv:2504.10461},
  year   = {2025}
}
R2 v1 2026-06-28T22:58:00.574Z