Rumian Zhong scite author profile

Based on the basic theory of wavelet neural networks and finite element model updating method, a basic framework of damage prognosis method is proposed in this paper. Firstly, a damaged I-steel beam model testing is used to verify the feasibility and effectiveness of the proposed damage prognosis method. The results show that the predicted results of the damage prognosis method and the measured results are very well consistent, and the maximum error is less than 5%. Furthermore, Xinyihe Bridge in the Beijing-Shanghai Highway is selected as the engineering background, and the damage prognosis is conducted based on the data from the structural health monitoring system. The results show that the traffic volume will increase and seasonal differences will decrease in the next year and a half. The displacement has a slight increase and seasonal characters in the critical section of mid span, but the strain will increase distinctly. The analysis results indicate that the proposed method can be applied to the damage prognosis of girder bridge structures and has the potential for the bridge health monitoring and safety prognosis.

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Instantaneous frequency tracking method for composite cable-stayed bridge

Zhong

Zong

Pai

et al. 2018

Mechanical Systems and Signal Processing

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Rumian Zhong

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

A Damage Prognosis Method of Girder Structures Based on Wavelet Neural Networks

Instantaneous frequency tracking method for composite cable-stayed bridge

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