Actuators (Jun 2024)

Dynamic Output Feedback of Second-Order Systems: An Observer-Based Controller with Linear Matrix Inequality Design

  • Danielle Gontijo,
  • José Mário Araújo,
  • Luciano Frezzato,
  • Fernando de Oliveira Souza

DOI
https://doi.org/10.3390/act13060216
Journal volume & issue
Vol. 13, no. 6
p. 216

Abstract

Read online

This paper presents an observer-based dynamic output-feedback controller design procedure using linear matrix inequality (LMI) optimization for second-order systems with uncertainty and persistent perturbation in the states. Using linear-quadratic criteria, cost functions are minimized in a two-stage procedure to compute optimal state-feedback gains, and observer gains are coupled into a dynamic output-feedback optimal controller. The LMI set used in the two stages is matrix inversion free, a key issue for polytope formulation when uncertainty is present. The approach is tested in a mobile inverted pendulum robotic platform, and the effectiveness is verified in this underactuated and undesensed case.

Keywords