Add to ORKGThis paper proposes a new load model to predict the lateral force exerted by pedestrians walking on lively footbridges. The aim of the model is to take into account some important features of the synchronous lateral excitation phenomenon, which so far has not been fully understood or modelled, e.g. the distinction between synchronization among pedestrians, due to crowd density, and between the pedestrians and the structure, caused by deck oscillations; the triggering of the lock-in phenomenon and its self-limited nature. The proposed load model has been tested with reference to two crowd events that were recorded on the T-bridge in Japan (1993) and on the Millennium Bridge in London (2001). The results obtained with the present model are co...
International audienceIn this paper, a simple 1D crowd model is proposed, which aim is to properly d...
Vibration induced by walking pedestrians has motivated research in the civil engineering community f...
This paper is focused on the evaluation of the structural response to vertical pedestrian excitation...
This paper proposes a new load model to predict the lateral force exerted by pedestrians walking on ...
This paper proposes a new load model to predict the lateral force exerted by pedestrians walking on ...
This paper proposes a new load model to predict the lateral force exerted by pedestrians walking on ...
A mathematical and computational model used to simulate Crowd-Structure Interaction in lively footbr...
This paper aims to provide a review and critical analysis of the state of the art concerning crowd-s...
This paper aims to provide a review and critical analysis of the state of the art concerning crowd-s...
This paper aims to provide a review and critical analysis of the state of the art concerning crowd-s...
The excessive lateral sway motion caused by crowds walking across footbridges has attracted great pu...
Despite considerable interest among engineers and scientists, bi-directional interaction between wal...
Pedestrian lateral excitation of bridges has received considerable attention since the la...
Footbridges can experience dynamic instability when subjected to crowd loading. This unstable behavi...
Lateral loading of bridges by a crowd of walking pedestrians is of serious concern as it can lead to...
International audienceIn this paper, a simple 1D crowd model is proposed, which aim is to properly d...
Vibration induced by walking pedestrians has motivated research in the civil engineering community f...
This paper is focused on the evaluation of the structural response to vertical pedestrian excitation...
This paper proposes a new load model to predict the lateral force exerted by pedestrians walking on ...
This paper proposes a new load model to predict the lateral force exerted by pedestrians walking on ...
This paper proposes a new load model to predict the lateral force exerted by pedestrians walking on ...
A mathematical and computational model used to simulate Crowd-Structure Interaction in lively footbr...
This paper aims to provide a review and critical analysis of the state of the art concerning crowd-s...
This paper aims to provide a review and critical analysis of the state of the art concerning crowd-s...
This paper aims to provide a review and critical analysis of the state of the art concerning crowd-s...
The excessive lateral sway motion caused by crowds walking across footbridges has attracted great pu...
Despite considerable interest among engineers and scientists, bi-directional interaction between wal...
Pedestrian lateral excitation of bridges has received considerable attention since the la...
Footbridges can experience dynamic instability when subjected to crowd loading. This unstable behavi...
Lateral loading of bridges by a crowd of walking pedestrians is of serious concern as it can lead to...
International audienceIn this paper, a simple 1D crowd model is proposed, which aim is to properly d...
Vibration induced by walking pedestrians has motivated research in the civil engineering community f...
This paper is focused on the evaluation of the structural response to vertical pedestrian excitation...