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Accurate control of hyperbolic trajectories in any dimension

Research output: Journal contributionsJournal articlesResearchpeer-review

Standard

Accurate control of hyperbolic trajectories in any dimension. / Balasuriya, Sanjeeva; Padberg-Gehle, Kathrin.
In: Physical Review E - Statistical, Nonlinear, and Soft Matter Physics, Vol. 90, No. 3, 032903, 03.09.2014.

Research output: Journal contributionsJournal articlesResearchpeer-review

Harvard

Balasuriya, S & Padberg-Gehle, K 2014, 'Accurate control of hyperbolic trajectories in any dimension', Physical Review E - Statistical, Nonlinear, and Soft Matter Physics, vol. 90, no. 3, 032903. https://doi.org/10.1103/PhysRevE.90.032903

APA

Balasuriya, S., & Padberg-Gehle, K. (2014). Accurate control of hyperbolic trajectories in any dimension. Physical Review E - Statistical, Nonlinear, and Soft Matter Physics, 90(3), Article 032903. https://doi.org/10.1103/PhysRevE.90.032903

Vancouver

Balasuriya S, Padberg-Gehle K. Accurate control of hyperbolic trajectories in any dimension. Physical Review E - Statistical, Nonlinear, and Soft Matter Physics. 2014 Sept 3;90(3):032903. doi: 10.1103/PhysRevE.90.032903

Bibtex

@article{6bd7005815de44c9a697a2b4561d42d4,
title = "Accurate control of hyperbolic trajectories in any dimension",
abstract = "The unsteady (nonautonomous) analog of a hyperbolic fixed point is a hyperbolic trajectory, whose importance is underscored by its attached stable and unstable manifolds, which have relevance in fluid flow barriers, chaotic basin boundaries, and the long-term behavior of the system. We develop a method for obtaining the unsteady control velocity which forces a hyperbolic trajectory to follow a user-prescribed variation with time. Our method is applicable in any dimension, and accuracy to any order is achievable. We demonstrate and validate our method by (1) controlling the fixed point at the origin of the Lorenz system, for example, obtaining a user-defined nonautonomous attractor, and (2) the saddle points in a droplet flow, using localized control which generates global transport.",
keywords = "Mathematics",
author = "Sanjeeva Balasuriya and Kathrin Padberg-Gehle",
year = "2014",
month = sep,
day = "3",
doi = "10.1103/PhysRevE.90.032903",
language = "English",
volume = "90",
journal = "Physical Review E - Statistical, Nonlinear, and Soft Matter Physics",
issn = "1539-3755",
publisher = "American Physical Society",
number = "3",

}

RIS

TY - JOUR

T1 - Accurate control of hyperbolic trajectories in any dimension

AU - Balasuriya, Sanjeeva

AU - Padberg-Gehle, Kathrin

PY - 2014/9/3

Y1 - 2014/9/3

N2 - The unsteady (nonautonomous) analog of a hyperbolic fixed point is a hyperbolic trajectory, whose importance is underscored by its attached stable and unstable manifolds, which have relevance in fluid flow barriers, chaotic basin boundaries, and the long-term behavior of the system. We develop a method for obtaining the unsteady control velocity which forces a hyperbolic trajectory to follow a user-prescribed variation with time. Our method is applicable in any dimension, and accuracy to any order is achievable. We demonstrate and validate our method by (1) controlling the fixed point at the origin of the Lorenz system, for example, obtaining a user-defined nonautonomous attractor, and (2) the saddle points in a droplet flow, using localized control which generates global transport.

AB - The unsteady (nonautonomous) analog of a hyperbolic fixed point is a hyperbolic trajectory, whose importance is underscored by its attached stable and unstable manifolds, which have relevance in fluid flow barriers, chaotic basin boundaries, and the long-term behavior of the system. We develop a method for obtaining the unsteady control velocity which forces a hyperbolic trajectory to follow a user-prescribed variation with time. Our method is applicable in any dimension, and accuracy to any order is achievable. We demonstrate and validate our method by (1) controlling the fixed point at the origin of the Lorenz system, for example, obtaining a user-defined nonautonomous attractor, and (2) the saddle points in a droplet flow, using localized control which generates global transport.

KW - Mathematics

UR - http://www.scopus.com/inward/record.url?scp=84907484075&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/d70b4064-d08e-3966-86c2-886f26277419/

U2 - 10.1103/PhysRevE.90.032903

DO - 10.1103/PhysRevE.90.032903

M3 - Journal articles

C2 - 25314500

AN - SCOPUS:84907484075

VL - 90

JO - Physical Review E - Statistical, Nonlinear, and Soft Matter Physics

JF - Physical Review E - Statistical, Nonlinear, and Soft Matter Physics

SN - 1539-3755

IS - 3

M1 - 032903

ER -

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