Rocking Spectrum for Cylindrical Structures Subjected to Bidirectional Pulse-Like Ground Motions

IF 4.3 2区工程技术 Q1 ENGINEERING, CIVIL

Earthquake Engineering & Structural Dynamics Pub Date : 2024-12-27 DOI:10.1002/eqe.4298

Xun Zhou, Jianzhong Li, Kangshuai Yin, Junjun Guo

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引用次数: 0

Abstract

In recent years, cylindrical structures free to rock have been exploited in practical engineering. However, their seismic response in three dimensions (3D), greatly sensitive to the parameters that define it, is difficult and time-consuming to predict. To this end, this study focuses on developing a rocking spectrum, an efficient graphical tool linking seismic rocking response to structural parameters, for seismic response prediction and performance-based seismic design of cylindrical structures. The development of the rocking spectrum is based on the numerical rocking response of 2500 idealized rigid cylinders excited by 100 sets of synthetic bidirectional pulse-like ground motions. The minimum Redundancy Maximum Relevance (mRMR) algorithm is first employed to reveal that the rocking response is more related to ground acceleration, ground velocity, and ground displacement when the response is small (close to uplift), intermediate, and large (close to overturning), respectively. Following these relations, the support vector machine (SVM) algorithm is employed to develop the rocking spectrum. The obtained rocking spectrum can reliably predict the rocking response of cylinders subjected to the synthetic pulse-like ground motions. The applicability of the spectrum is also discussed for as-recorded pulse-like ground motions.

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来源期刊

Earthquake Engineering & Structural Dynamics 工程技术-工程：地质

CiteScore

7.20

自引率

13.30%

发文量

180

审稿时长

4.8 months

期刊介绍： Earthquake Engineering and Structural Dynamics provides a forum for the publication of papers on several aspects of engineering related to earthquakes. The problems in this field, and their solutions, are international in character and require knowledge of several traditional disciplines; the Journal will reflect this. Papers that may be relevant but do not emphasize earthquake engineering and related structural dynamics are not suitable for the Journal. Relevant topics include the following: ground motions for analysis and design geotechnical earthquake engineering probabilistic and deterministic methods of dynamic analysis experimental behaviour of structures seismic protective systems system identification risk assessment seismic code requirements methods for earthquake-resistant design and retrofit of structures.