Structural damping estimation from live monitoring of a tall modular building
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John Hickey, Hollie Moore, Brian Broderick, Breiffni Fitzgerald, Structural damping estimation from live monitoring of a tall modular building, The Structural Design of Tall and Special Buildings, 2023
Abstract
The damping ratio is a key indicator of an individual structure's susceptibility to
dynamic loads, including the level of discomfort experienced by the occupants of a
tall building subjected to wind loading. While computational models, laboratory stud-
ies and empirical data can provide estimates of structural damping, the most reliable
way to evaluate true damping ratio values is through modal identification using data
from field tests on full-scale finished structures. As an innovative form of construc-
tion, high-rise modular buildings have not been the subject of previous vibration
monitoring investigations, implying an absence of essential structural dynamics infor-
mation. This paper assesses the reliability of four modal identification methods for
estimating the damping ratio of a structure using ambient acceleration response data
recorded from the world's tallest modular structure, the Ten Degrees building in
Croydon, South London. The methods considered are two implementations of the
Bayesian fast Fourier transform (BFFT), the random decrement technique (RDT), and
a hybrid of the RDT which first decomposes the ambient data into sub-signals using
analytical mode decomposition (AMD-RDT). Each method is applied to response data
collected during 10 significant wind loading events to evaluate the inherent modal
properties of the structure, with the computed damping ratio values compared
between methods and events. By reporting the first measured damping ratios for a
tall modular structure, the paper makes an important contribution to knowledge
about the vibration properties of an emerging form of construction.
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Sponsor: Irish Research Council (IRC)
Grant Number: EBPPG/2020/244
Author's Homepage: http://people.tcd.ie/fitzgeb7
Type of material: Journal Article

