Accurate force evaluation in prestressed cable-strut structures: A robust sparse Bayesian learning method with feedback-driven error optimization

Force evaluation is critical to ensuring the safety of cable-strut structures during service. This study employs dynamic testing to assess the internal forces resulting from cable relaxation in prestressed cable-strut structures. A cross-model cross-mode algorithm is utilized to establish a cable fo...

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Vydáno v:Engineering structures Ročník 330; s. 119878
Hlavní autoři: Chen, Yao, Zhou, Haodong, Gao, Jiangjun, Shen, Zhengliang, Xie, Tianyu, Sareh, Pooya
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.05.2025
Témata:
Expectation–maximization algorithm
Force evaluation
Prestressed cable-strut structure
Sparse Bayesian learning
Uncertainty quantification
Uncertainty quantification
Force evaluation
Expectation–maximization algorithm
Sparse Bayesian learning
Prestressed cable-strut structure
ISSN:0141-0296
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Shrnutí:Force evaluation is critical to ensuring the safety of cable-strut structures during service. This study employs dynamic testing to assess the internal forces resulting from cable relaxation in prestressed cable-strut structures. A cross-model cross-mode algorithm is utilized to establish a cable force evaluation model. This approach broadens the range of available modes and addresses mismatches between modes before and after cable force loss. To enhance the accuracy and reliability of the force evaluation, a robust sparse Bayesian learning method is proposed. Measurement noise is modeled as a mixture of Gaussian distributions rather than a single Gaussian distribution, enabling a more precise representation of uncertainties in force evaluation. Furthermore, a feedback-driven error optimization process is introduced to minimize residuals through multiple linear iterations. Numerical simulations demonstrate that the proposed method achieves greater evaluation accuracy compared to existing sparse Bayesian approaches. Comparative analyses under varying noise levels reveal that the proposed method is robust and effectively reduces the impact of measurement noise. •A modal-based method for force evaluation of cable-strut structures is proposed.•A robust SBL method is introduced to enhance the accuracy and reliability.•Measurement noise is modeled as a mixture of Gaussian to capture the uncertainties.•An iterative error optimization is established to mitigate the effects of structural nonlinearity.
ISSN:0141-0296
DOI:10.1016/j.engstruct.2025.119878