Add to ORKGThe characteristic vertical vibration of a flexible footbridge subject to crowd loading is examined in this paper. Typically, bridge vibrations produced from a crowd of pedestrians are estimated by using an enhancement factor applied to the effect caused by a single pedestrian. In this paper, a single pedestrian model, represented by a spring mass damper, which incorporates variables such as pedestrian mass and body stiffness, is used to calibrate a computationally efficient moving force model. This calibrated moving force model is further used in Monte Carlo simulations of non-homogenous crowds to estimate characteristic vertical vibration levels. Enhancement factors, which could be applied to simple single pedestrian moving force models i...
To allow for a more accurate description of crowd-induced loading, the present study aims to provide...
Current codes and guidelines for the dynamic design of footbridges often only specify the pedestrian...
This paper is focused on the evaluation of the structural response to vertical pedestrian excitation...
The issue of excessive vibration of footbridges due to pedestrian loading is now well documented. Br...
The characteristic vertical response of flexible footbridges subjected to single pedestrian and crow...
In the present paper, a detailed crowd model is applied to investigate the impact of vertical human-...
Footbridges with low natural frequency are susceptible to excessive vibration serviceability problem...
A reliable prediction of the human-induced vibrations of footbridges relies on an accurate represent...
Despite extensive research in the field of human-induced vibration in the last twenty years, there i...
Slender footbridges are often highly susceptible to human-induced vibrations, due to their low stiff...
As part of a continuing study on effects of humans on loading and dynamic response of footbridges, a...
The excessive vibration of footbridges caused by walking pedestrians has generated great public conc...
This is the final version. Available on open access from Elsevier via the DOI in this recordTo accou...
The research into modeling walking-induced dynamic loading and its effects on footbridge structures ...
\u3cp\u3eAfter 15 years of active research on the interaction between moving people and civil engine...
To allow for a more accurate description of crowd-induced loading, the present study aims to provide...
Current codes and guidelines for the dynamic design of footbridges often only specify the pedestrian...
This paper is focused on the evaluation of the structural response to vertical pedestrian excitation...
The issue of excessive vibration of footbridges due to pedestrian loading is now well documented. Br...
The characteristic vertical response of flexible footbridges subjected to single pedestrian and crow...
In the present paper, a detailed crowd model is applied to investigate the impact of vertical human-...
Footbridges with low natural frequency are susceptible to excessive vibration serviceability problem...
A reliable prediction of the human-induced vibrations of footbridges relies on an accurate represent...
Despite extensive research in the field of human-induced vibration in the last twenty years, there i...
Slender footbridges are often highly susceptible to human-induced vibrations, due to their low stiff...
As part of a continuing study on effects of humans on loading and dynamic response of footbridges, a...
The excessive vibration of footbridges caused by walking pedestrians has generated great public conc...
This is the final version. Available on open access from Elsevier via the DOI in this recordTo accou...
The research into modeling walking-induced dynamic loading and its effects on footbridge structures ...
\u3cp\u3eAfter 15 years of active research on the interaction between moving people and civil engine...
To allow for a more accurate description of crowd-induced loading, the present study aims to provide...
Current codes and guidelines for the dynamic design of footbridges often only specify the pedestrian...
This paper is focused on the evaluation of the structural response to vertical pedestrian excitation...