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Finding optimal parameters of tuned mass dampers

Özsarıyıldız, Şaban S. / Bozer, Ali

In this paper, optimum design of tuned mass damper for seismically excited structures is discussed. In the design process, a benchmark multi‐degree of freedom system is considered, and the performance measure of the optimization criterion is selected as the H₂ and H_∞ norms of the transfer function of the combined tuned mass damper and building system. Differential evolution algorithm is then utilized to minimize these objective functions. The objective function choice on performance and the effectiveness of differential evolution optimization algorithm in comparison with other algorithms in the literature are investigated through numerical simulations. Copyright © 2014 John Wiley & Sons, Ltd.

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Finding optimal parameters of tuned mass dampers

Özsarıyıldız, Şaban S. / Bozer, Ali

In this paper, optimum design of tuned mass damper for seismically excited structures is discussed. In the design process, a benchmark multi‐degree of freedom system is considered, and the performance measure of the optimization criterion is selected as the H₂ and H_∞ norms of the transfer function of the combined tuned mass damper and building system. Differential evolution algorithm is then utilized to minimize these objective functions. The objective function choice on performance and the effectiveness of differential evolution optimization algorithm in comparison with other algorithms in the literature are investigated through numerical simulations. Copyright © 2014 John Wiley & Sons, Ltd.

Finding optimal parameters of tuned mass dampers

Özsarıyıldız, Şaban S. / Bozer, Ali

In this paper, optimum design of tuned mass damper for seismically excited structures is discussed. In the design process, a benchmark multi‐degree of freedom system is considered, and the performance measure of the optimization criterion is selected as the H₂ and H_∞ norms of the transfer function of the combined tuned mass damper and building system. Differential evolution algorithm is then utilized to minimize these objective functions. The objective function choice on performance and the effectiveness of differential evolution optimization algorithm in comparison with other algorithms in the literature are investigated through numerical simulations. Copyright © 2014 John Wiley & Sons, Ltd.

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Title:

Finding optimal parameters of tuned mass dampers

Contributors:

Özsarıyıldız, Şaban S. (author) / Bozer, Ali (author)

Published in:

The Structural Design of Tall and Special Buildings ; 24 ; 461-475

Publication date:

2015-04-25

Size:

15 pages

ISSN:

1541-7794 , 1541-7808

DOI:

https://doi.org/10.1002/tal.1174

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

optimization , tuned mass dampers , earthquake , differential evolution , structural control , MDOF structures

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