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LMI-based design of distributed energy-dissipation systems for vibration control of large multi-story structures

Author
Palacios-Quiñonero, F.; Rubió-Massegú, J.; Rossell, Josep M.; Reza, H.
Type of activity
Presentation of work at congresses
Name of edition
X International Conference on Structural Dynamics
Date of publication
2017
Presentation's date
2017-09
Book of congress proceedings
Procedia engineering. 2017, vol. 199
First page
1749
Last page
1754
Publisher
Elsevier
DOI
https://doi.org/10.1016/j.proeng.2017.09.433 Open in new window
Project funding
Design of advanced control strategies and fault detection for complex mechatronic systems
Repository
http://hdl.handle.net/2117/107883 Open in new window
Abstract
In this paper, we present an advanced computational procedure that allows obtaining distributed energy-dissipation systems for large multi-story structures. The proposed methodology is based on a decentralized velocity-feedback energy-to-componentwise-peak (ECWP) controller design approach and can be formulated as a linear matrix inequality (LMI) optimization problem with structure constraints. To demonstrate the effectiveness of the proposed design methodology, a passive damping system is compu...
Citation
Palacios-Quiñonero, F., Rubió-Massegú, J., Rossell, Josep M., Reza, H. LMI-based design of distributed energy-dissipation systems for vibration control of large multi-story structures. A: International Conference on Structural Dynamics. "Procedia engineering. 2017, vol. 199". Roma: Elsevier, 2017, p. 1749-1754.
Keywords
Energy-dissipation systems, Large scale control, Passive control, Seismic protection, Vibration control
Group of research
CoDAlab - Control, Dynamics and Applications

Participants

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