Linear stability and the Braess paradox in coupled oscillator networks and electric power grids
Coletta, Tommaso; Jacquod, Philippe
2016

Résumé

We investigate the influence that adding a new coupling has on the linear stability of the synchronous state in coupled-oscillator networks. Using a simple model, we show that, depending on its location, the new coupling can lead to enhanced or reduced stability. We extend these results to electric power grids where a new line can lead to four different scenarios corresponding to enhanced or reduced grid stability as well as increased or decreased power flows. Our analysis shows that the Braess paradox may occur in any complex coupled system, where the synchronous state may be weakened and sometimes even destroyed by additional couplings.

Détails

Titre Linear stability and the Braess paradox in coupled oscillator networks and electric power grids
Auteur(s)/ trice(s) Coletta, Tommaso (School of Engineering, HES-SO Valais-Wallis, HEI, HES-SO University of Applied Sciences Western Switzerland)
Jacquod, Philippe (School of Engineering, HES-SO Valais-Wallis, HEI, HES-SO University of Applied Sciences Western Switzerland)
Date 2016-03
Publié dans Physical Review
Volume 2016, vol. 93, article no. 032222
DOI https://doi.org/10.1103/PhysRevE.93.032222
ISSN 2470-0045
Mots-clés (libres) synchronization ; coupled oscillators ; power grid networks ; nonlinear dynamics
Type d'article scientifique
Domaine Ingénierie et Architecture
Ecole HEI-VS
Institut Energy - Institut de recherche appliquée en systèmes énergétiques
Le document apparaît dans Articles scientifiques
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