Multi-Modal Active Vibration Control of a Lightweight Stress-Ribbon Bridge Based on Experimental System Identification
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Inhaltsangabe zu "Multi-Modal Active Vibration Control of a Lightweight Stress-Ribbon Bridge Based on Experimental System Identification"
Lightweight footbridges are usually elegant and pleasing in terms of their structural design; however, they are
prone to high-vibration sensitivity under pedestrian traffic. Multi-modal active vibration control (AVC) techniques
with sensors and actuators could be potential alternatives to decrease multi-modal vibrations and guarantee the
pedestrian comfort. The research object is the stress-ribbon footbridge in the lab at the Chair of Conceptual and
Structural Design of Technische Universität Berlin. The extremely low bending stiffness as well as the extremely
low structural damping lead to an unusually high vibration sensitivity not only in the vertical direction but also
in the spatial dimension. Additionally, pedestrian-induced vibration on the lightweight footbridge demonstrates
multi-modal time-varying characteristics in both time-frequency analysis (TFA) and experimental modal analysis.
A multi-modal AVC system (AVC 2.0) is applied and implemented on the stress-ribbon bridge with inertial sensors
and pneumatic muscle actuators (PMAs) to reduce the multi-modal vibration in vertical and torsional modes.
prone to high-vibration sensitivity under pedestrian traffic. Multi-modal active vibration control (AVC) techniques
with sensors and actuators could be potential alternatives to decrease multi-modal vibrations and guarantee the
pedestrian comfort. The research object is the stress-ribbon footbridge in the lab at the Chair of Conceptual and
Structural Design of Technische Universität Berlin. The extremely low bending stiffness as well as the extremely
low structural damping lead to an unusually high vibration sensitivity not only in the vertical direction but also
in the spatial dimension. Additionally, pedestrian-induced vibration on the lightweight footbridge demonstrates
multi-modal time-varying characteristics in both time-frequency analysis (TFA) and experimental modal analysis.
A multi-modal AVC system (AVC 2.0) is applied and implemented on the stress-ribbon bridge with inertial sensors
and pneumatic muscle actuators (PMAs) to reduce the multi-modal vibration in vertical and torsional modes.
Buchdetails
Aktuelle Ausgabe
ISBN:9783746780504
Sprache:Englisch
Ausgabe:Taschenbuch
Umfang:216 Seiten
Verlag:epubli
Erscheinungsdatum:15.11.2018
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Buchdetails
Aktuelle Ausgabe
ISBN:9783746780504
Sprache:Englisch
Ausgabe:Taschenbuch
Umfang:216 Seiten
Verlag:epubli
Erscheinungsdatum:15.11.2018