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    A Fourier Series-Based Multi-Point Excitation Model for Crowd Jumping Loads

    New search for: Jiecheng Xiong
    New search for: Zhongsui Cao
    New search for: Shuqian Duan
    New search for: Bei Cao
    New search for: Hui Qian
    New search for: Chenyang Li

    Crowd jumping loads are often simplified to a single-point excitation in the existing Fourier series-based models, most of which lack the data support of crowd jumping experiments. A Fourier series-based multi-point excitation model for crowd jumping loads is herein developed, where two parameters, the jumping frequency, and the time lag shift, are selected to quantify the crowd synchronization. After the verification of 3D motion capture technology, the probability distributions of the jumping frequency and the time lag shift are modeled based on the crowd jumping experiment, in which the trajectories of the reflective markers of 48 test subjects were simultaneously recorded by 3D motion capture technology. Through repeated sampling, the jumping load of each person in a crowd is simulated. This model could offer a useful method for evaluating the vibration performance of assembly structures like grandstands, gymnasiums, and concert venues.

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    A Fourier Series-Based Multi-Point Excitation Model for Crowd Jumping Loads

    New search for: Jiecheng Xiong
    New search for: Zhongsui Cao
    New search for: Shuqian Duan
    New search for: Bei Cao
    New search for: Hui Qian
    New search for: Chenyang Li

    Crowd jumping loads are often simplified to a single-point excitation in the existing Fourier series-based models, most of which lack the data support of crowd jumping experiments. A Fourier series-based multi-point excitation model for crowd jumping loads is herein developed, where two parameters, the jumping frequency, and the time lag shift, are selected to quantify the crowd synchronization. After the verification of 3D motion capture technology, the probability distributions of the jumping frequency and the time lag shift are modeled based on the crowd jumping experiment, in which the trajectories of the reflective markers of 48 test subjects were simultaneously recorded by 3D motion capture technology. Through repeated sampling, the jumping load of each person in a crowd is simulated. This model could offer a useful method for evaluating the vibration performance of assembly structures like grandstands, gymnasiums, and concert venues.

    Access

    Download

    A Fourier Series-Based Multi-Point Excitation Model for Crowd Jumping Loads

    New search for: Jiecheng Xiong
    New search for: Zhongsui Cao
    New search for: Shuqian Duan
    New search for: Bei Cao
    New search for: Hui Qian
    New search for: Chenyang Li

    Crowd jumping loads are often simplified to a single-point excitation in the existing Fourier series-based models, most of which lack the data support of crowd jumping experiments. A Fourier series-based multi-point excitation model for crowd jumping loads is herein developed, where two parameters, the jumping frequency, and the time lag shift, are selected to quantify the crowd synchronization. After the verification of 3D motion capture technology, the probability distributions of the jumping frequency and the time lag shift are modeled based on the crowd jumping experiment, in which the trajectories of the reflective markers of 48 test subjects were simultaneously recorded by 3D motion capture technology. Through repeated sampling, the jumping load of each person in a crowd is simulated. This model could offer a useful method for evaluating the vibration performance of assembly structures like grandstands, gymnasiums, and concert venues.

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    Title:

    A Fourier Series-Based Multi-Point Excitation Model for Crowd Jumping Loads

    Contributors:

    Jiecheng Xiong (author) / Zhongsui Cao (author) / Shuqian Duan (author) / Bei Cao (author) / Hui Qian (author) / Chenyang Li (author)

    Published in:

    Buildings, Vol 13, Iss 7, p 1782 (2023)

    Publication date:

    2023

    ISSN:

    2075-5309

    DOI:

    https://doi.org/10.3390/buildings13071782

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    crowd jumping , vibration serviceability , human-induced vibration , multi-point excitation model , Building construction , TH1-9745

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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