Attenuation vibration by parametric excitation using the Meissner equation

Miguel Ramirez; Joaquin Collado

doi:10.1109/ICEEE.2016.7751253

Attenuation vibration by parametric excitation using the Meissner equation

Miguel Ramirez, Joaquin Collado

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Scopus citations

Abstract

A method for vibrations attenuation applying parametric excitation is described. The parametric excitation is introduced in the stiffness of the mechanical system. General conditions for stability are derived by solving analytically the Meissner equation in two dimensions and using the symplectic properties of the monodromy matrix. Due to the Meissner equation solution, all the computations can be implemented without using numerical methods.

Original language	English
Title of host publication	2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control, CCE 2016
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781509035106
DOIs	https://doi.org/10.1109/ICEEE.2016.7751253
State	Published - 21 Nov 2016
Externally published	Yes
Event	13th International Conference on Electrical Engineering, Computing Science and Automatic Control, CCE 2016 - Mexico City, Mexico Duration: 26 Sep 2016 → 30 Sep 2016

Publication series

Name	2016 13th International Conference on Electrical Engineering,Computing Science and Automatic Control, CCE 2016

Conference

Conference	13th International Conference on Electrical Engineering, Computing Science and Automatic Control, CCE 2016
Country/Territory	Mexico
City	Mexico City
Period	26/09/16 → 30/09/16

Access to Document

10.1109/ICEEE.2016.7751253

Cite this

Ramirez, M., & Collado, J. (2016). Attenuation vibration by parametric excitation using the Meissner equation. In 2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control, CCE 2016 Article 7751253 (2016 13th International Conference on Electrical Engineering,Computing Science and Automatic Control, CCE 2016). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICEEE.2016.7751253

Ramirez, Miguel ; Collado, Joaquin. / Attenuation vibration by parametric excitation using the Meissner equation. 2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control, CCE 2016. Institute of Electrical and Electronics Engineers Inc., 2016. (2016 13th International Conference on Electrical Engineering,Computing Science and Automatic Control, CCE 2016).

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title = "Attenuation vibration by parametric excitation using the Meissner equation",

abstract = "A method for vibrations attenuation applying parametric excitation is described. The parametric excitation is introduced in the stiffness of the mechanical system. General conditions for stability are derived by solving analytically the Meissner equation in two dimensions and using the symplectic properties of the monodromy matrix. Due to the Meissner equation solution, all the computations can be implemented without using numerical methods.",

author = "Miguel Ramirez and Joaquin Collado",

note = "Publisher Copyright: {\textcopyright} 2016 IEEE.; 13th International Conference on Electrical Engineering, Computing Science and Automatic Control, CCE 2016 ; Conference date: 26-09-2016 Through 30-09-2016",

year = "2016",

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doi = "10.1109/ICEEE.2016.7751253",

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Ramirez, M & Collado, J 2016, Attenuation vibration by parametric excitation using the Meissner equation. in 2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control, CCE 2016., 7751253, 2016 13th International Conference on Electrical Engineering,Computing Science and Automatic Control, CCE 2016, Institute of Electrical and Electronics Engineers Inc., 13th International Conference on Electrical Engineering, Computing Science and Automatic Control, CCE 2016, Mexico City, Mexico, 26/09/16. https://doi.org/10.1109/ICEEE.2016.7751253

Attenuation vibration by parametric excitation using the Meissner equation. / Ramirez, Miguel; Collado, Joaquin.
2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control, CCE 2016. Institute of Electrical and Electronics Engineers Inc., 2016. 7751253 (2016 13th International Conference on Electrical Engineering,Computing Science and Automatic Control, CCE 2016).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Collado, Joaquin

PY - 2016/11/21

Y1 - 2016/11/21

N2 - A method for vibrations attenuation applying parametric excitation is described. The parametric excitation is introduced in the stiffness of the mechanical system. General conditions for stability are derived by solving analytically the Meissner equation in two dimensions and using the symplectic properties of the monodromy matrix. Due to the Meissner equation solution, all the computations can be implemented without using numerical methods.

AB - A method for vibrations attenuation applying parametric excitation is described. The parametric excitation is introduced in the stiffness of the mechanical system. General conditions for stability are derived by solving analytically the Meissner equation in two dimensions and using the symplectic properties of the monodromy matrix. Due to the Meissner equation solution, all the computations can be implemented without using numerical methods.

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PB - Institute of Electrical and Electronics Engineers Inc.

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Y2 - 26 September 2016 through 30 September 2016

ER -

Ramirez M, Collado J. Attenuation vibration by parametric excitation using the Meissner equation. In 2016 13th International Conference on Electrical Engineering, Computing Science and Automatic Control, CCE 2016. Institute of Electrical and Electronics Engineers Inc. 2016. 7751253. (2016 13th International Conference on Electrical Engineering,Computing Science and Automatic Control, CCE 2016). doi: 10.1109/ICEEE.2016.7751253

Attenuation vibration by parametric excitation using the Meissner equation

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