Comparing model-based adaptive LMS filters and a model-free hysteresis loop analysis method for structural health monitoring

The model-free hysteresis loop analysis (HLA) method for structural health monitoring (SHM) has significant advantages over the traditional model-based SHM methods that require a suitable baseline model to represent the actual system response. This paper provides a unique validation against both an...

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Published inMechanical systems and signal processing Vol. 84; pp. 384 - 398
Main Authors Zhou, Cong, Chase, J. Geoffrey, Rodgers, Geoffrey W., Xu, Chao
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2017
Subjects
Adaptive filter
Damage identification
Hysteresis loop analysis
Model-based
Reinforced concrete experimental structure
Structural health monitoring
Hysteresis loop analysis
Damage identification
Structural health monitoring
Adaptive filter
Reinforced concrete experimental structure
Model-based
Online AccessGet full text
ISSN0888-3270
1096-1216
DOI10.1016/j.ymssp.2016.07.030

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Abstract The model-free hysteresis loop analysis (HLA) method for structural health monitoring (SHM) has significant advantages over the traditional model-based SHM methods that require a suitable baseline model to represent the actual system response. This paper provides a unique validation against both an experimental reinforced concrete (RC) building and a calibrated numerical model to delineate the capability of the model-free HLA method and the adaptive least mean squares (LMS) model-based method in detecting, localizing and quantifying damage that may not be visible, observable in overall structural response. Results clearly show the model-free HLA method is capable of adapting to changes in how structures transfer load or demand across structural elements over time and multiple events of different size. However, the adaptive LMS model-based method presented an image of greater spread of lesser damage over time and story when the baseline model is not well defined. Finally, the two algorithms are tested over a simpler hysteretic behaviour typical steel structure to quantify the impact of model mismatch between the baseline model used for identification and the actual response. The overall results highlight the need for model-based methods to have an appropriate model that can capture the observed response, in order to yield accurate results, even in small events where the structure remains linear. •The capability necessary to monitor the evolution of structural health over time and multiple events is examined.•It delineates how the model-free method adapts to changes in how structures transfer load across structural elements.•Model-based methods may present an image of greater spread of lesser damage over both DOF and time.•The numerical comparison quantifies the impact of mismatch between the baseline model and the actual response.
AbstractList The model-free hysteresis loop analysis (HLA) method for structural health monitoring (SHM) has significant advantages over the traditional model-based SHM methods that require a suitable baseline model to represent the actual system response. This paper provides a unique validation against both an experimental reinforced concrete (RC) building and a calibrated numerical model to delineate the capability of the model-free HLA method and the adaptive least mean squares (LMS) model-based method in detecting, localizing and quantifying damage that may not be visible, observable in overall structural response. Results clearly show the model-free HLA method is capable of adapting to changes in how structures transfer load or demand across structural elements over time and multiple events of different size. However, the adaptive LMS model-based method presented an image of greater spread of lesser damage over time and story when the baseline model is not well defined. Finally, the two algorithms are tested over a simpler hysteretic behaviour typical steel structure to quantify the impact of model mismatch between the baseline model used for identification and the actual response. The overall results highlight the need for model-based methods to have an appropriate model that can capture the observed response, in order to yield accurate results, even in small events where the structure remains linear. •The capability necessary to monitor the evolution of structural health over time and multiple events is examined.•It delineates how the model-free method adapts to changes in how structures transfer load across structural elements.•Model-based methods may present an image of greater spread of lesser damage over both DOF and time.•The numerical comparison quantifies the impact of mismatch between the baseline model and the actual response.
Author Chase, J. Geoffrey
Xu, Chao
Rodgers, Geoffrey W.
Zhou, Cong
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  givenname: Cong
  surname: Zhou
  fullname: Zhou, Cong
  email: cong.zhou@pg.canterbury.ac.nz
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  givenname: J. Geoffrey
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  fullname: Rodgers, Geoffrey W.
  organization: Department of Mechanical Engineering, University of Canterbury, Christchurch, New Zealand
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  givenname: Chao
  surname: Xu
  fullname: Xu, Chao
  organization: School of Astronautics, Northwestern Polytechnical University, Xi’an, China
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Keywords Hysteresis loop analysis
Damage identification
Structural health monitoring
Adaptive filter
Reinforced concrete experimental structure
Model-based
Language English
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SSID ssj0009406
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Snippet The model-free hysteresis loop analysis (HLA) method for structural health monitoring (SHM) has significant advantages over the traditional model-based SHM...
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StartPage 384
SubjectTerms Adaptive filter
Damage identification
Hysteresis loop analysis
Model-based
Reinforced concrete experimental structure
Structural health monitoring
Title Comparing model-based adaptive LMS filters and a model-free hysteresis loop analysis method for structural health monitoring
URI https://dx.doi.org/10.1016/j.ymssp.2016.07.030
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