Experimental Evaluation of the Driving Parameters in Human–Structure Interaction

Many studies in the literature have already evidenced that pedestrians are able to change the dynamic properties of slender structures (e.g., footbridges and staircases). The aim of this paper is to analyse which pedestrians’ features mostly affect the structure behaviour, in order to properly accou...

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Published inVibration Vol. 5; no. 1; pp. 121 - 140
Main Authors Lucà, Francescantonio, Berardengo, Marta, Manzoni, Stefano, Scaccabarozzi, Diego, Vanali, Marcello, Drago, Loris
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2022
Subjects
apparent mass
Design
dynamics
Frequency response functions
Human body
human-induced vibrations
human–structure interaction
Interaction parameters
measurement
Pedestrian bridges
Pedestrians
Staircases
Variability
Vibration
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ISSN2571-631X
2571-631X
DOI10.3390/vibration5010008

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Abstract Many studies in the literature have already evidenced that pedestrians are able to change the dynamic properties of slender structures (e.g., footbridges and staircases). The aim of this paper is to analyse which pedestrians’ features mostly affect the structure behaviour, in order to properly account for them in a human–structure interaction problem, while disregarding the less relevant ones. This is accomplished by measuring the apparent mass (i.e., the frequency response function between the vibration of the structure at the contact point and the consequent force exerted by the pedestrian to the structure itself) curves of human bodies and coupling them to the dynamics of a slender structure. In more detail, this paper aims at analysing which factors must be accounted for among intra-subject variability (i.e., the dynamic behaviour of the same subject can change because it is characterised by a natural dispersion), inter-subject variability (i.e., different subjects have different dynamic behaviours) and the posture (i.e., the same subject changes posture during motion and this causes a change of his/her dynamic features). The influence of the apparent mass properties on the modal parameters of the hosting structure is addressed by means of a modal approach.
AbstractList Many studies in the literature have already evidenced that pedestrians are able to change the dynamic properties of slender structures (e.g., footbridges and staircases). The aim of this paper is to analyse which pedestrians’ features mostly affect the structure behaviour, in order to properly account for them in a human–structure interaction problem, while disregarding the less relevant ones. This is accomplished by measuring the apparent mass (i.e., the frequency response function between the vibration of the structure at the contact point and the consequent force exerted by the pedestrian to the structure itself) curves of human bodies and coupling them to the dynamics of a slender structure. In more detail, this paper aims at analysing which factors must be accounted for among intra-subject variability (i.e., the dynamic behaviour of the same subject can change because it is characterised by a natural dispersion), inter-subject variability (i.e., different subjects have different dynamic behaviours) and the posture (i.e., the same subject changes posture during motion and this causes a change of his/her dynamic features). The influence of the apparent mass properties on the modal parameters of the hosting structure is addressed by means of a modal approach.
Author Manzoni, Stefano
Scaccabarozzi, Diego
Berardengo, Marta
Vanali, Marcello
Drago, Loris
Lucà, Francescantonio
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Snippet Many studies in the literature have already evidenced that pedestrians are able to change the dynamic properties of slender structures (e.g., footbridges and...
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StartPage 121
SubjectTerms apparent mass
Design
dynamics
Frequency response functions
Human body
human-induced vibrations
human–structure interaction
Interaction parameters
measurement
Pedestrian bridges
Pedestrians
Staircases
Variability
Vibration
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Title Experimental Evaluation of the Driving Parameters in Human–Structure Interaction
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