Zhouhong Zong scite author profile

The ambient vibration measurement is a kind of output data-only dynamic testing where the traffics and winds are used as agents responsible for natural or environmental excitation. Therefore an experimental modal analysis procedure for ambient vibration testing will need to base itself on output-only data. The modal analysis involving output-only measurements present a challenge that requires the use of special modal identification technique, which can deal with very small magnitude of ambient vibration contaminated by noise. Two complementary modal analysis methods are implemented. They are rather simple peak picking (PP) method in frequency domain and more advanced stochastic subspace identification (SSI) method in time domain. This paper presents the application of ambient vibration testing and experimental modal analysis on large civil engineering structures. A 15 storey reinforced concrete shear core building and a concrete filled steel tubular arch bridge have been chosen as two case studies. The results have shown that both techniques can identify the frequencies effectively. The stochastic subspace identification technique can detect frequencies that may possibly be missed by the peak picking method and gives a more reasonable mode shapes in most cases.

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Dynamic and seismic performance of old multi-tiered temples in Nepal

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Ren

Zong

et al. 2003

Engineering Structures

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Long-term monitoring of wind characteristics at Sutong Bridge site

Wang

Niu

et al. 2013

Journal of Wind Engineering and Industrial Aerodynamics

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A study of RC bridge columns under contact explosion

Yuan

Hao

Zong

et al. 2017

International Journal of Impact Engineering

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Numerical study on the behavior of utility tunnel subjected to ground surface explosion

Qian

Zong

et al. 2021

Thin-Walled Structures

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Dynamic analysis of a half-through concrete-filled steel tubular arch bridge

Zong

Jaishi

et al. 2005

Engineering Structures

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A multiscale finite element model validation method of composite cable-stayed bridge based on Probability Box theory

Zhong

Zong

Niu

et al. 2016

Journal of Sound and Vibration

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A new active learning method based on the learning function U of the AK-MCS reliability analysis method

Zheng

Ming

Zong

et al. 2017

Engineering Structures

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Zhouhong Zong

Output-only modal parameter identification of civil engineering structures

Dynamic and seismic performance of old multi-tiered temples in Nepal

Long-term monitoring of wind characteristics at Sutong Bridge site

A study of RC bridge columns under contact explosion

Numerical study on the behavior of utility tunnel subjected to ground surface explosion

Dynamic analysis of a half-through concrete-filled steel tubular arch bridge

A multiscale finite element model validation method of composite cable-stayed bridge based on Probability Box theory

A new active learning method based on the learning function U of the AK-MCS reliability analysis method

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