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Journal of Sound and Vibration, ISSN 0022-460X, 09/2016, Volume 377, pp. 346 - 367
In this paper, human–structure interaction system models for vibration in the vertical direction are considered. This work assembles various moving load models... 
Pedestrian crowd | Human-structure interaction | Modal analysis | Vertical direction | Spring mass damper | Finite element | EXCITATION | SERVICEABILITY | DYNAMIC-RESPONSE | ENGINEERING, MECHANICAL | BEAM | ACOUSTICS | MECHANICS | MASS | FINITE-ELEMENT | HUMAN WALKING | FORCES | FOOTBRIDGES | LOADS | Usage | Analysis | Footbridges
Journal Article
Journal Article
Engineering Structures, ISSN 0141-0296, 04/2015, Volume 89, pp. 103 - 110
•Experimental modal analysis was applied to an occupied laboratory structure.•Analytical modeling using recommended occupant models was performed.•Confirmation... 
Vibration serviceability | Human–structure interaction | Modal analysis | Occupant model | Human-structure interaction | FLOORS | ENGINEERING, CIVIL | VIBRATION | MATHEMATICAL-MODELS
Journal Article
Journal of Sound and Vibration, ISSN 0022-460X, 08/2017, Volume 402, pp. 104 - 121
In the present paper, a detailed crowd model is applied to investigate the impact of vertical human-structure interaction (HSI) on the dynamic response of... 
Full-scale testing | Human-induced vibrations | Vibration serviceability | Human-structure interaction | Random pedestrian traffic | Footbridge | HUMAN-BODY | MODAL PARAMETERS | VIBRATION | MODEL | ENGINEERING, MECHANICAL | PREDICTION | BRIDGE DYNAMIC INTERACTION | ACOUSTICS | MECHANICS | LOADS | Analysis | Footbridges
Journal Article
Archive of Applied Mechanics, ISSN 0939-1533, 10/2019, Volume 89, Issue 10, pp. 2167 - 2191
This paper presents a general approach for modelling human–structure interaction in the case of vertical vibrations that is based on a model of the system and... 
Engineering | Ground reaction force | Structural vibration | Classical Mechanics | Human–structure interaction | Serviceability | Theoretical and Applied Mechanics | Apparent mass | Staircase | Advertising campaigns | Mechanical engineering | Analysis
Journal Article
Structural Control and Health Monitoring, ISSN 1545-2255, 03/2020, Volume 27, Issue 3, p. n/a
Summary The study of the human‐structure interaction (HSI) using biodynamics models has gained attention lately. Several studies have demonstrated that the... 
occupant comfort | experimental tests | human‐structure interaction | system identification | human‐induced loads | floor vibrations | Walking | Spools | Biodynamics | Floors | Optimization
Journal Article
Journal of Sound and Vibration, ISSN 0022-460X, 10/2018, Volume 432, pp. 351 - 372
In lightweight structures, there is increasing evidence of the existence of interaction between pedestrians and structures, now commonly termed... 
Human-structure interaction | Experiment | In-sole sensors | Footbridge vibration | WALKING | PRESSURE INSOLES | EXCITATION | VIBRATION RESPONSE | PEDESTRIAN STRUCTURES | MODEL | GROUND REACTION FORCES | ENGINEERING, MECHANICAL | ACOUSTICS | MECHANICS | TREADMILL | FOOTBRIDGES | LOADS | Monte Carlo method | Vibration | Human acts | Human behavior | Analysis | Measuring instruments
Journal Article
International Journal of Applied Mechanics, ISSN 1758-8251, 03/2017, Volume 9, Issue 2
In this paper, the dynamic interaction of human body and structure is studied The shaking table experiment with a person standing on a rigid table supported by... 
Human-structure interaction | inversing analysis | body model | shaking table test | dynamic characteristics | modal identification | MECHANICS | MODELS | LATERAL FORCES | VIBRATION | BEHAVIOR
Journal Article
Journal of Sound and Vibration, ISSN 0022-460X, 03/2018, Volume 417, pp. 80 - 96
The effect of human-structure interaction in the vertical direction for footbridges is studied based on a probabilistic approach. The bridge is modeled as a... 
Human-structure interaction | Footbridges | Serviceability | Monte Carlo simulation | SYSTEM | ACOUSTICS | HUMAN-BODY | MECHANICS | MODELS | PARAMETERS | ENGINEERING, MECHANICAL | Monte Carlo method | Analysis
Journal Article
Engineering Structures, ISSN 0141-0296, 11/2019, Volume 199, p. 109687
•Human-structure interaction (HSI) is not presently considered in many design guidelines.•Structural use of lightweight materials such as glass... 
Vibration perception | Vibration | Human-structure interaction | GFRP | Footbridge | Force models | ENGINEERING, CIVIL | PRESSURE INSOLES | QUANTIFICATION | MASS | GROUND REACTION FORCES | Vibrations | Glass fiber reinforced plastics | Fiber reinforced polymers | Walking | Composite materials | Lightweight | Pedestrian bridges | Occupancy
Journal Article
Journal of Bridge Engineering, ISSN 1084-0702, 08/2016, Volume 21, Issue 8
AbstractIn this paper, a biomechanical crowd–structure interaction model is proposed and further implemented to adequately estimate the energy exchange between... 
Technical Paper | Crowd dynamics | Simplified biomechanical model | Human-structure interaction | Change of natural frequencies | Footbridge | ENGINEERING, CIVIL | VIBRATION | DYNAMICS | BRIDGE
Journal Article
Applied Mathematical Modelling, ISSN 0307-904X, 03/2016, Volume 40, Issue 5-6, pp. 3738 - 3748
•A TDOF integrative model is developed.•The present model is more reasonable than the conventional model.•The human body is modeled as an elastic bar with two... 
TDOF system | Body model | Human-structure interaction | Modelling method | Coupled vibration | SYSTEM | FREQUENCIES | MATHEMATICS, INTERDISCIPLINARY APPLICATIONS | MECHANICS | ENGINEERING, MULTIDISCIPLINARY | STANDING HUMAN-BODY | MASS | VERTICAL VIBRATION | MECHANICAL IMPEDANCE | WHOLE-BODY VIBRATION | Joining | Mathematical models | Stiffness | Modelling | Vibration | Human body
Journal Article
Journal of Applied Mechanics, Transactions ASME, ISSN 0021-8936, 2014, Volume 81, Issue 4, pp. np - np
Journal Article
Engineering Structures, ISSN 0141-0296, 02/2018, Volume 156, pp. 537 - 547
•Human-induced vibrations for a wide range of footbridge and crowd parameters.•Spectral load model for pedestrian actions in unrestricted and crowded... 
Spectral model | Human-induced vibrations | Vibration serviceability | Human-structure interaction | Footbridge | HUMAN-BODY | WALKING | VIBRATION | BRIDGES | SERVICEABILITY | PARAMETERS | DYNAMIC-RESPONSE | ENGINEERING, CIVIL | FORCES | CROWD | FOOTBRIDGES | Analysis | Footbridges
Journal Article
Applied Mathematical Modelling, ISSN 0307-904X, 11/2017, Volume 51, pp. 526 - 545
•Human-structure interaction (HSI) is incorporated into a moving force model.•A simplified analytical approach is developed for determining the equivalent... 
Human-induced vibration | Spring-mass-damper | Moving force | Human-structure interaction | Footbridges | VIBRATION SERVICEABILITY | WALKING | MATHEMATICS, INTERDISCIPLINARY APPLICATIONS | MECHANICS | EXCITATION | ENGINEERING, MULTIDISCIPLINARY | Analysis
Journal Article
Journal of Performance of Constructed Facilities, ISSN 0887-3828, 10/2018, Volume 32, Issue 5, pp. 4018068 - 46
AbstractThe high strength of construction materials has allowed the design of elegant and architecturally appealing footbridges that are safe against static... 
Technical Papers | Modal testing and analysis | Vibration serviceability | Human-structure interaction | Computer modeling | Model updating | Footbridge vibration | RELIABILITY | MODEL | BUILDING FLOOR | ENGINEERING, CIVIL | CONSTRUCTION & BUILDING TECHNOLOGY | OCCUPANTS | BODY | Pedestrian bridges | Vibration analysis
Journal Article
Procedia Engineering, ISSN 1877-7058, 2017, Volume 199, pp. 2889 - 2894
The further development and improvement of prediction models for human-induced vibrations of footbridges requires detailed and accurate information on... 
parameter estimation | human-induced vibrations | human-structure interaction | vibration serviceability
Journal Article
Procedia Engineering, ISSN 1877-7058, 2017, Volume 199, pp. 2883 - 2888
This paper deals with the quantification of the effects of human-structure interaction in the vertical direction for footbridges. Analyses are based on the... 
Human-structure interaction | Footbridges | Coupled system | Monte Carlo simulation
Journal Article