MAXIMIZING THE ROBUST STABILITY DEGREE OF SYSTEM WITH INTERVAL CHARACTERISTIC POLYNOMIAL

MAXIMIZING THE ROBUST STABILITY DEGREE OF SYSTEM WITH INTERVAL CHARACTERISTIC POLYNOMIAL

The article considers the use of critical root diagrams for the synthesis of a one-parameter robust controller that provides the maximum stability degree in a third-order system with interval parameters. For the synthesis of the controller, the characteristic polynomial of the system is used, the co...

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Bibliographic Details
Main Authors: Alexander V. Sobol, Sergey A. Gayvoronskiy
Format: Article
Language:English
Published: Tomsk Polytechnic University 2023-03-01
Series:Известия Томского политехнического университета: Промышленная кибернетика
Subjects:
robust stability degree
maximization of stability degree
interval coefficients of the characteristic polynomial
critical root diagrams
Online Access:https://indcyb.ru/journal/article/view/12/11
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Summary:The article considers the use of critical root diagrams for the synthesis of a one-parameter robust controller that provides the maximum stability degree in a third-order system with interval parameters. For the synthesis of the controller, the characteristic polynomial of the system is used, the coefficients of which are given by their own intervals. On critical root diagrams, the dominant roots of the characteristic polynomial are located on one vertical straight line, which determines the maximum degree of stability. The authors have developed the algorithm for synthesizing a controller at the vertices of a polyhedron of polynomial coefficients, which are possible prototypes of the dominant poles of critical diagrams. A numerical example is given.
ISSN:2949-5407

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