Mathematics (Nov 2023)

On the State-Feedback Controller Design for Polynomial Linear Parameter-Varying Systems with Pole Placement within Linear Matrix Inequality Regions

  • Jorge A. Brizuela-Mendoza,
  • Juan Carlos Mixteco-Sánchez,
  • Maria A. López-Osorio,
  • Gerardo Ortiz-Torres,
  • Felipe D. J. Sorcia-Vázquez,
  • Ricardo Eliú Lozoya-Ponce,
  • Moises B. Ramos-Martínez,
  • Alan F. Pérez-Vidal,
  • Jesse Y. Rumbo Morales,
  • Cesar H. Guzmán-Valdivia,
  • Mayra G. Mena-Enriquez,
  • Carlos Alberto Torres-Cantero

DOI
https://doi.org/10.3390/math11224696
Journal volume & issue
Vol. 11, no. 22
p. 4696

Abstract

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The present paper addresses linear parameter-varying systems with high-order time-varying parameter dependency known as polynomial LPV systems and their controller design. Throughout this work, a procedure ensuring a state-feedback controller from a parameterized linear matrix inequality (PLMI) solution is presented. As the main contribution of this paper, the controller is designed by considering the time-varying parameter rate as a tuning parameter with a continuous control gain in such a way that the closed-loop eigenvalues lie in a complex plane subset, with high-order time-varying parameters defining the system dynamics. Simulation results are presented, aiming to show the effectiveness of the proposed controller design.

Keywords