Modified Strong Tracking System Identification Method Based on Square Root Center Difference Kalman Filter for Civil Structures

Yang Jipeng; Xia Ye; Yan YexiangSun Limin

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Modified Strong Tracking System Identification Method Based on Square Root Center Difference Kalman Filter for Civil Structures

机译：Modified Strong Tracking System Identification Method Based on Square Root Center Difference Kalman Filter for Civil Structures

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Civil engineering structures will exhibit hysteretic behavior due to damage caused by dynamic loads. Identifying the hysteretic behavior of structures is a practical and challenging problem that involves observing vibration data to determine strength and stiffness degradation. This paper proposes a modified square root central difference Kalman filter (MSRCD-KF) method to track this behavior. By combining the QR decomposition and strong tracking filtering technology, the proposed method makes the recursive calculation process unconditionally stable, while enabling the tracking of abrupt changes in structural parameters. A three degree-of-freedom (3-DOF) Duffing system is used in the simulation to verify the effectiveness of the proposed method. Numerical results show that the proposed method can converge to the true value quickly and accurately. Then, the proposed method is used to identify the structural parameters of a two-story concrete frame structure under different seismic loading sequences. In the first example, the structure is simplified as a 2-DOF linear system for which the equivalent stiffness and damping under different damage levels are identified. This information is then used to obtain the stiffness variation trend, damping ratio, and frequency. The second example uses the Bouc-Wen model to consider the stiffness and strength degradation of the structure. Finally, the experimental results demonstrate that the proposed method can accurately identify the structural parameters of nonlinear systems, and the identified hysteresis curves are in good agreement with the experimental ones.

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来源
《International journal of structural stability and dynamics》 |2021年第11期|共32页
作者
Yang Jipeng; Xia Ye; Yan YexiangSun Limin;
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作者单位

Tongji Univ, Dept Bridge Engn, Shanghai, Peoples R China;

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原文格式 PDF
正文语种英语
中图分类应用力学;
关键词
Parameter identification; seismic load; hysteretic characteristics; Kalman filter; system identification;

Modified Strong Tracking System Identification Method Based on Square Root Center Difference Kalman Filter for Civil Structures

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