English

Minimum Structural Sensor Placement for Switched Linear Time-Invariant Systems and Unknown Inputs

Systems and Control 2021-07-29 v1 Systems and Control

Abstract

In this paper, we study the structural state and input observability of continuous-time switched linear time-invariant systems and unknown inputs. First, we provide necessary and sufficient conditions for their structural state and input observability that can be efficiently verified in O((m(n+p))2)O((m(n+p))^2), where nn is the number of state variables, pp is the number of unknown inputs, and mm is the number of modes. Moreover, we address the minimum sensor placement problem for these systems by adopting a feed-forward analysis and by providing an algorithm with a computational complexity of O((m(n+p)+α)2.373) O((m(n+p)+\alpha)^{2.373}), where α\alpha is the number of target strongly connected components of the system's digraph representation. Lastly, we explore different assumptions on both the system and unknown inputs (latent space) dynamics that add more structure to the problem, and thereby, enable us to render algorithms with lower computational complexity, which are suitable for implementation in large-scale systems.

Keywords

Cite

@article{arxiv.2107.13493,
  title  = {Minimum Structural Sensor Placement for Switched Linear Time-Invariant Systems and Unknown Inputs},
  author = {Emily A. Reed and Guilherme Ramos and Paul Bogdan and Sérgio Pequito},
  journal= {arXiv preprint arXiv:2107.13493},
  year   = {2021}
}
R2 v1 2026-06-24T04:36:15.511Z