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Autores principales: Drobot, Stéphane, Tacchi, Matteo, Cardozo, Carmen, Jones, Colin N.
Formato: Preprint
Publicado: 2023
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Acceso en línea:https://arxiv.org/abs/2304.08889
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author Drobot, Stéphane
Tacchi, Matteo
Cardozo, Carmen
Jones, Colin N.
author_facet Drobot, Stéphane
Tacchi, Matteo
Cardozo, Carmen
Jones, Colin N.
contents This paper presents a new Matlab toolbox, aimed at facilitating the use of polynomial optimization for stability analysis of nonlinear systems. In the past decade several decisive contributions made it possible to recast this type of problems as convex optimization ones that are tractable in modest dimensions. However, available software requires their user to be fluent in Sum-of-Squares programming, preventing them from being more widely explored by practitioners. To address this issue, SOStab entirely automates the writing and solving of optimization problems, and directly outputs relevant data for the user, while requiring minimal input. In particular, no specific knowledge of optimization is needed for implementation. The toolbox allows a user to obtain outer and inner approximates of the \ac{roa} of the operating point of different grid connected devices such as synchronous machines and power converters.
format Preprint
id arxiv_https___arxiv_org_abs_2304_08889
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle SOStab: a Matlab Toolbox for Transient Stability Analysis
Drobot, Stéphane
Tacchi, Matteo
Cardozo, Carmen
Jones, Colin N.
Optimization and Control
Systems and Control
This paper presents a new Matlab toolbox, aimed at facilitating the use of polynomial optimization for stability analysis of nonlinear systems. In the past decade several decisive contributions made it possible to recast this type of problems as convex optimization ones that are tractable in modest dimensions. However, available software requires their user to be fluent in Sum-of-Squares programming, preventing them from being more widely explored by practitioners. To address this issue, SOStab entirely automates the writing and solving of optimization problems, and directly outputs relevant data for the user, while requiring minimal input. In particular, no specific knowledge of optimization is needed for implementation. The toolbox allows a user to obtain outer and inner approximates of the \ac{roa} of the operating point of different grid connected devices such as synchronous machines and power converters.
title SOStab: a Matlab Toolbox for Transient Stability Analysis
topic Optimization and Control
Systems and Control
url https://arxiv.org/abs/2304.08889