Using Hamiltonian control to desynchronize Kuramoto oscillators

Oltiana Gjata; Malbor Asllani; Luigi Barletti; Timoteo Carletti

doi:10.1103/physreve.95.022209

Using Hamiltonian control to desynchronize Kuramoto oscillators

Oltiana Gjata, Malbor Asllani, Luigi Barletti, Timoteo Carletti

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Résumé

Many coordination phenomena are based on a synchronization process, whose global behavior emerges from the interactions among the individual parts. Often in nature, such self-organized mechanism allows the system to behave as a whole and thus grounding its very first existence, or expected functioning, on such process. There are, however, cases where synchronization acts against the stability of the system; for instance in some neurodegenerative diseases or epilepsy or the famous case of Millennium Bridge where the crowd synchronization of the pedestrians seriously endangered the stability of the structure. In this paper we propose an innovative control method to tackle the synchronization process based on the application of the Hamiltonian control theory, by adding a small control term to the system we are able to impede the onset of the synchronization. We present our results on a generalized class of the paradigmatic Kuramoto model.

langue originale	Anglais
Numéro d'article	022209
Pages (de - à)	022209
journal	Physical review. E
Volume	95
Numéro de publication	2
Les DOIs	https://doi.org/10.1103/physreve.95.022209
Etat de la publication	Publié - 15 févr. 2017

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10.1103/physreve.95.022209

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https://journals.aps.org/pre/abstract/10.1103/PhysRevE.95.022209

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Reaction-diffusion equations: the role of geometry and granularity
Carletti, T. (Co-investigateur) & Fuzfa, A. (Co-investigateur)
3/10/11 → …
Projet: Recherche
PAI n°P7/19 - DYSCO: Dynamical systems, control and optimization (DYSCO)
Winkin, J. (Co-investigateur), Blondel, V. (Responsable du Projet), Vandewalle, J. (Co-investigateur), Pintelon, R. M. (Co-investigateur), Sepulchre, R. (Co-investigateur), Vande Wouwer, A. (Co-investigateur) & Sartenaer, A. (Co-investigateur)
1/04/12 → 30/09/17
Projet: Recherche

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title = "Using Hamiltonian control to desynchronize Kuramoto oscillators",

abstract = "Many coordination phenomena are based on a synchronization process, whose global behavior emerges from the interactions among the individual parts. Often in nature, such self-organized mechanism allows the system to behave as a whole and thus grounding its very first existence, or expected functioning, on such process. There are, however, cases where synchronization acts against the stability of the system; for instance in some neurodegenerative diseases or epilepsy or the famous case of Millennium Bridge where the crowd synchronization of the pedestrians seriously endangered the stability of the structure. In this paper we propose an innovative control method to tackle the synchronization process based on the application of the Hamiltonian control theory, by adding a small control term to the system we are able to impede the onset of the synchronization. We present our results on a generalized class of the paradigmatic Kuramoto model.",

keywords = "Kuramoto model, synchronization; coupled oscillators, Control of chaos, non linear dynamics, Hamiltonian control",

author = "Oltiana Gjata and Malbor Asllani and Luigi Barletti and Timoteo Carletti",

year = "2017",

month = feb,

day = "15",

doi = "10.1103/physreve.95.022209",

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T1 - Using Hamiltonian control to desynchronize Kuramoto oscillators

AU - Gjata, Oltiana

AU - Asllani, Malbor

AU - Barletti, Luigi

AU - Carletti, Timoteo

PY - 2017/2/15

Y1 - 2017/2/15

N2 - Many coordination phenomena are based on a synchronization process, whose global behavior emerges from the interactions among the individual parts. Often in nature, such self-organized mechanism allows the system to behave as a whole and thus grounding its very first existence, or expected functioning, on such process. There are, however, cases where synchronization acts against the stability of the system; for instance in some neurodegenerative diseases or epilepsy or the famous case of Millennium Bridge where the crowd synchronization of the pedestrians seriously endangered the stability of the structure. In this paper we propose an innovative control method to tackle the synchronization process based on the application of the Hamiltonian control theory, by adding a small control term to the system we are able to impede the onset of the synchronization. We present our results on a generalized class of the paradigmatic Kuramoto model.

AB - Many coordination phenomena are based on a synchronization process, whose global behavior emerges from the interactions among the individual parts. Often in nature, such self-organized mechanism allows the system to behave as a whole and thus grounding its very first existence, or expected functioning, on such process. There are, however, cases where synchronization acts against the stability of the system; for instance in some neurodegenerative diseases or epilepsy or the famous case of Millennium Bridge where the crowd synchronization of the pedestrians seriously endangered the stability of the structure. In this paper we propose an innovative control method to tackle the synchronization process based on the application of the Hamiltonian control theory, by adding a small control term to the system we are able to impede the onset of the synchronization. We present our results on a generalized class of the paradigmatic Kuramoto model.

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KW - Control of chaos

KW - non linear dynamics

KW - Hamiltonian control

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DO - 10.1103/physreve.95.022209

M3 - Article

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JF - Physical review. E

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ER -

Using Hamiltonian control to desynchronize Kuramoto oscillators

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Reaction-diffusion equations: the role of geometry and granularity

PAI n°P7/19 - DYSCO: Dynamical systems, control and optimization (DYSCO)

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