Multi-stage damage identification method for PC structures based on machine learning driven by piezoelectric singular feature

•A multi-stage damage identification method for PC structures is proposed.•The singular value vector in the piezoelectric signal is extracted as the damage feature.•A nonlinear relationship between piezoelectric signal and damage of PC structures is established. Efficient and accurate damage identif...

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Published inEngineering failure analysis Vol. 165; p. 108769
Main Authors Dai, Lizhao, Ou, Lingzhi, Yi, Shanchang, Wang, Lei
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2024
Subjects
Damage identification
Improved BPNN
PC structures
Piezoelectric signal
Singular value decomposition
PC structures
Damage identification
Piezoelectric signal
Improved BPNN
Singular value decomposition
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Abstract •A multi-stage damage identification method for PC structures is proposed.•The singular value vector in the piezoelectric signal is extracted as the damage feature.•A nonlinear relationship between piezoelectric signal and damage of PC structures is established. Efficient and accurate damage identification methods are great significant for ensuring the structural safety. This study proposes a multi-stage damage identification method for prestressed concrete (PC) structures based on machine learning driven by piezoelectric singular feature to improve the identification accuracy. This method extracts the singular value vector in the piezoelectric signal as the damage feature by multi-layer wavelet packet transform and singular value decomposition. The singular value vectors are put into the improved back propagation neural network (BPNN) model to achieve complete damage identification. This method is verified by analyzing the piezoelectric signals collected by PZT patches based on the static load failure test. The results show that the amplitude and energy of the signal gradually decreases and the frequency subject gradually develops from high frequency to low frequency with the development of damage. The extracted singular values effectively retain the main information of the piezoelectric signal as damage feature. The peak singular value decreases from fast to slow with the development of damage, which finally tends to be stable. The improved BPNN model has strong flexibility and adaptability, which enhances its ability of damage identification. The proposed method can achieve high-precision damage identification using piezoelectric signals, which has great application potential in the field of damage identification for PC structures.
AbstractList •A multi-stage damage identification method for PC structures is proposed.•The singular value vector in the piezoelectric signal is extracted as the damage feature.•A nonlinear relationship between piezoelectric signal and damage of PC structures is established. Efficient and accurate damage identification methods are great significant for ensuring the structural safety. This study proposes a multi-stage damage identification method for prestressed concrete (PC) structures based on machine learning driven by piezoelectric singular feature to improve the identification accuracy. This method extracts the singular value vector in the piezoelectric signal as the damage feature by multi-layer wavelet packet transform and singular value decomposition. The singular value vectors are put into the improved back propagation neural network (BPNN) model to achieve complete damage identification. This method is verified by analyzing the piezoelectric signals collected by PZT patches based on the static load failure test. The results show that the amplitude and energy of the signal gradually decreases and the frequency subject gradually develops from high frequency to low frequency with the development of damage. The extracted singular values effectively retain the main information of the piezoelectric signal as damage feature. The peak singular value decreases from fast to slow with the development of damage, which finally tends to be stable. The improved BPNN model has strong flexibility and adaptability, which enhances its ability of damage identification. The proposed method can achieve high-precision damage identification using piezoelectric signals, which has great application potential in the field of damage identification for PC structures.
ArticleNumber 108769
Author Dai, Lizhao
Yi, Shanchang
Wang, Lei
Ou, Lingzhi
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Damage identification
Piezoelectric signal
Improved BPNN
Singular value decomposition
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Snippet •A multi-stage damage identification method for PC structures is proposed.•The singular value vector in the piezoelectric signal is extracted as the damage...
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StartPage 108769
SubjectTerms Damage identification
Improved BPNN
PC structures
Piezoelectric signal
Singular value decomposition
Title Multi-stage damage identification method for PC structures based on machine learning driven by piezoelectric singular feature
URI https://dx.doi.org/10.1016/j.engfailanal.2024.108769
Volume 165
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