Publisher DOI: 10.1109/TAC.2024.3373334
Title: Stability analysis of a discrete-time limit cycle model predictive controller
Language: English
Authors: Cateriano Yáñez, Carlos 
Pangalos, Georg 
Lichtenberg, Gerwald  
Sanchís Saez, Javier 
Keywords: Nonlinear predictive control; nonlinear systems; stability of nonlinear systems; limit cycles
Issue Date: 5-Mar-2024
Publisher: IEEE
Journal or Series Name: IEEE transactions on automatic control 
Volume: 69
Issue: 9
Startpage: 6169
Endpage: 6175
Abstract: 
Recently, a novel discrete-time nonlinear limit cycle model predictive controller for harmonic compensation has been proposed. Its compensating action is achieved by using the dynamics of a supercritical Neimark-Sacker bifurcation normal form at the core of its cost function. This work aims to extend this approach's applicability by analyzing its stability. This is accomplished by identifying the normal form's region of attraction and final set, which enables the use of LaSalle's invariance principle. These results are then extended to the proposed controller under ideal conditions, i.e., zero-cost solutions with predictable disturbances. For nonideal scenarios, i.e., solutions with unpredictable disturbances and cost restrictions, conditions are developed to ensure that the closed-loop system remains inside the normal form's region of attraction. These findings are tested under nonideal conditions in a power systems application example. The results show successful power quality compensation and a satisfactory resilient behavior of the closed loop within the margins developed during this work.
URI: http://hdl.handle.net/20.500.12738/15364
ISSN: 1558-2523
Review status: This version was peer reviewed (peer review)
Institute: Department Medizintechnik 
Fakultät Life Sciences 
Type: Article
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