The Analysis of Long‐Term Frequency and Damping Wandering in Buildings Using the Random Decrement Technique

Mikael, Ali; Guéguen, Philippe; Bard, Pierre‐Yves; Roux, Philippe; Langlais, Mickaël

doi:10.1785/0120120048

Cited by 75 publications

(75 citation statements)

References 49 publications

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“…In particular, ambient vibration-based methods have been applied to the towers to evaluate their modal response (Mikael et al, 2013;Valla et al, 2014). Two approaches have been applied, the first consisting in computing the Fourier spectrum of ambient vibrations recorded at the top of the building in the transverse (T) and longitudinal (L) directions; the second by applying frequency domain decomposition (FDD, Brincker et al, 2001) with ambient vibrations recorded on 15 different floors in MB to identify the modal shapes linked to each modal frequency.…”

Section: Observation Of the Coupling In Grenoblementioning

confidence: 99%

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Experimental and Numerical Evidence of the Clustering Effect of Structures on Their Response during an Earthquake: A Case Study of Three Identical Towers in the City of Grenoble, France

Guéguen¹,

Colombi²

2016

Bulletin of the Seismological Society of America

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In this article, interpretation of an equivalent to a macroseismic intensity survey, performed in three identical stand-alone buildings located in Grenoble, France, after an M L 4.1 earthquake, reveals a clustering effect, resulting in different levels of perception of seismic loading by inhabitants. The clustering effect is confirmed using numerical simulation; the variation of the seismic response of the building in the middle of the cluster depends on the azimuth of the seismic source relative to the building cluster. The major effect is the splitting of its resonance frequency, accompanied by a decrease in vibration amplitude. We conclude that clustering has an impact on urban effects, calling into question the validity of seismic design, which considers buildings in urban areas as stand-alone constructions, and the interpretation of macroseismic intensity surveys conducted in dense urban areas.

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Section: Observation Of the Coupling In Grenoblementioning

confidence: 99%

“…The first two modes for the north-south direction, numerically calculated, are 0.75 and 2.65 Hz, whereas for east-west, they are 0.5 and 2.1 Hz. Building damping (Mikael et al, 2013;Valla et al, 2014) translates into a quality factor Q 10 corresponding to an equivalent critical damping equal to 5%.…”

Section: Numerical Modelingmentioning

confidence: 99%

Experimental and Numerical Evidence of the Clustering Effect of Structures on Their Response during an Earthquake: A Case Study of Three Identical Towers in the City of Grenoble, France

Guéguen¹,

Colombi²

2016

Bulletin of the Seismological Society of America

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“…Faravelli et al [33] analysed the daily fluctuations of frequencies of the Guangzhou New TV Tower (600 m high) in China observing that also ambient temperature variations of few degree Celsius may induce variations in the structural frequencies, up to 0.5%. Mikael et al [34] focused on the long-term variation of frequency and damping ratios in several buildings and reported contrasting behaviours, including direct and inverse correlation with temperature variations. More recently, Wu et al [35] presented results of the continuous dynamic monitoring of an office building using ambient vibration measurements in conjunction with a recently developed stochastic subspace identification methodology.…”

Section: Introductionmentioning

confidence: 99%

Effect of Environmental Conditions on the Modal Response of a 10‐Story Reinforced Concrete Tower

Regni

Arezzo

Carbonari

et al. 2018

Shock and Vibration

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We analyse the effect of temperature and wind velocity on the natural frequencies and modal damping ratios of the Faculty of Engineering Tower at the Università Politecnica delle Marche, a 10-story reinforced concrete frame building, permanently monitored with low-noise accelerometers. The data recorded over the first 5 months of monitoring demonstrate that temperature variations and wind intensity have a clear effect on the first three natural frequencies and the corresponding damping ratios. Temperature is positively correlated to the first and second frequencies, corresponding to shear displacement modes and negatively correlated to the third frequency, corresponding to a torsional mode. All frequencies are positively correlated to wind velocity and changes in damping ratios are inversely correlated to any change in frequency. A mechanical explanation of these phenomena is offered, based on a critical review of literature case studies. These results suggest that using changes in modal parameters for damage detection always requires accurate knowledge of the correlation between modal parameters and environmental quantities (temperature, humidity, and wind velocity), an information which is only available through long-term continuous monitoring of the structural response.

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“…In the first case, the fundamental behavior is evaluated by involving solely collected data (Celebi, 2007;Mikael et al, 2013;Saaed Alqado et al, 2015;Loh and Chen, 2017). This can be seen as a "black-box" approach, where the supporting framework does not allow clear explanation of the observed results.…”

Section: Introductionmentioning

confidence: 99%

System Identification of Tunnel Response to Ground Motion Considering a Simplified Model

Alonso‐Rodríguez

Nikitas

Knappett

et al. 2018

Front. Built Environ.

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This paper presents a simplified model using coupled Bernoulli and shear beams supported by Winkler-type springs for system identification of tunnels subjected to earthquake-induced ground motions. The model formulation is introduced and closed-form solutions to the modal characteristic equation and mode shapes are derived. The latter are verified against the results of numerical models. Then, the system identification algorithm is presented, showcasing its ability to recover model parameters when recorded acceleration time histories along the tunnel are compromised by noise and sensor locations are varied. The presented framework can be used to initially and, simply, recover tunnel response when monitoring data is available, or to plan for monitoring campaigns in newly constructed or existing tunnels.

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The Analysis of Long‐Term Frequency and Damping Wandering in Buildings Using the Random Decrement Technique

Cited by 75 publications

References 49 publications

Experimental and Numerical Evidence of the Clustering Effect of Structures on Their Response during an Earthquake: A Case Study of Three Identical Towers in the City of Grenoble, France

Experimental and Numerical Evidence of the Clustering Effect of Structures on Their Response during an Earthquake: A Case Study of Three Identical Towers in the City of Grenoble, France

Effect of Environmental Conditions on the Modal Response of a 10‐Story Reinforced Concrete Tower

System Identification of Tunnel Response to Ground Motion Considering a Simplified Model

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