Optimal viscous dampers gains for structures subjected to earthquakes

Ido Halperin; Yuri Ribakov; Grigoriy Agranovich

doi:10.1002/stc.1779

Optimal viscous dampers gains for structures subjected to earthquakes

Ido Halperin, Yuri Ribakov, Grigoriy Agranovich

Ariel University

Research output: Contribution to journal › Article › peer-review

Abstract

Summary Passive control is a known method for vibrations damping in civil structures. The simplicity and reliability of passive damping devices makes them a worthy candidate in many practical applications. However, despite of its practical simplicity, the optimal design of passive controller is quite a hard computational problem. In this work, an enhanced optimal viscous passive dampers design method is proposed for seismically excited structures. The optimization is carried out with relation to performance index that consists of an H₂ norm of the system and a quadratic gains norm. An algorithm is suggested for the look after a candidate optimum. It is based on Newton's optimization method with recently developed effective calculation method for the Hessian matrix. Numerical evaluation of the suggested method demonstrates a very fast convergence rate of the design algorithm and proves a performance effective dampers distribution.

Original language	English
Pages (from-to)	458-469
Number of pages	12
Journal	Structural Control and Health Monitoring
Volume	23
Issue number	3
DOIs	https://doi.org/10.1002/stc.1779
State	Published - 1 Mar 2016

Keywords

H norm
energy dissipation devices
optimal control
passive control
seismic design
viscous dampers

All Science Journal Classification (ASJC) codes

Civil and Structural Engineering
Building and Construction
Mechanics of Materials

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10.1002/stc.1779

Cite this

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abstract = "Summary Passive control is a known method for vibrations damping in civil structures. The simplicity and reliability of passive damping devices makes them a worthy candidate in many practical applications. However, despite of its practical simplicity, the optimal design of passive controller is quite a hard computational problem. In this work, an enhanced optimal viscous passive dampers design method is proposed for seismically excited structures. The optimization is carried out with relation to performance index that consists of an H2 norm of the system and a quadratic gains norm. An algorithm is suggested for the look after a candidate optimum. It is based on Newton's optimization method with recently developed effective calculation method for the Hessian matrix. Numerical evaluation of the suggested method demonstrates a very fast convergence rate of the design algorithm and proves a performance effective dampers distribution.",

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AU - Ribakov, Yuri

AU - Agranovich, Grigoriy

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N2 - Summary Passive control is a known method for vibrations damping in civil structures. The simplicity and reliability of passive damping devices makes them a worthy candidate in many practical applications. However, despite of its practical simplicity, the optimal design of passive controller is quite a hard computational problem. In this work, an enhanced optimal viscous passive dampers design method is proposed for seismically excited structures. The optimization is carried out with relation to performance index that consists of an H2 norm of the system and a quadratic gains norm. An algorithm is suggested for the look after a candidate optimum. It is based on Newton's optimization method with recently developed effective calculation method for the Hessian matrix. Numerical evaluation of the suggested method demonstrates a very fast convergence rate of the design algorithm and proves a performance effective dampers distribution.

AB - Summary Passive control is a known method for vibrations damping in civil structures. The simplicity and reliability of passive damping devices makes them a worthy candidate in many practical applications. However, despite of its practical simplicity, the optimal design of passive controller is quite a hard computational problem. In this work, an enhanced optimal viscous passive dampers design method is proposed for seismically excited structures. The optimization is carried out with relation to performance index that consists of an H2 norm of the system and a quadratic gains norm. An algorithm is suggested for the look after a candidate optimum. It is based on Newton's optimization method with recently developed effective calculation method for the Hessian matrix. Numerical evaluation of the suggested method demonstrates a very fast convergence rate of the design algorithm and proves a performance effective dampers distribution.

KW - H norm

KW - energy dissipation devices

KW - optimal control

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KW - seismic design

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DO - 10.1002/stc.1779

M3 - مقالة

SN - 1545-2255

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SP - 458

EP - 469

JO - Structural Control and Health Monitoring

JF - Structural Control and Health Monitoring

IS - 3

ER -

Optimal viscous dampers gains for structures subjected to earthquakes

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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