There is a risk that excessive vibration in long span cantilever grandstands can be triggered by the spectators synchronising their jumps to the music played. If the jumping frequency excites a resonance of the grandstand, large force could be generated. This thesis studies human-structure interaction in cantilever grandstands, with emphasis on modelling the passive and jumping crowds, and analysing the response of a single degree-of-freedom (SDOF) structural system. Preliminary work on analysing a cantilever occupied by seated humans shows that it is acceptable to use a SDOF structural system for analysis which meant emphasis of later work could be placed on understanding the interaction between a passive crowd and the structure. Human d...
This article is a state of the art about Grandstands. The Grandstands are slender structures designe...
Prediction of dynamic loads induced by groups and crowds of people bouncing is a hot topic among des...
Occupants of a structure are thought to behave as a dynamic spring-mass-damper system interacting wi...
The possibility of excessive vibration on cantilever grandstands caused by lively human-induced load...
This paper describes the design, construction and use of a unique laboratory rig for the study of dy...
This paper describes the design, construction and use of a unique laboratory rig for the study of dy...
On structures carrying humans (e.g. floors, grandstands in stadia etc.) there may be two different t...
Modelling the interaction between crowds and temporary demountable grandstands with identifying the ...
Human-induced rhythmic loading is an increasingly critical aspect in the design process of civil eng...
& This paper provides an overview of the response of grandstands to dynamic crowd loading. It su...
Predicting vibration performance of civil engineering structures due to human induced rhythmic loadi...
This paper details a first attempt to develop a simple human-structure dynamic interaction (HSDI) mo...
This paper presents the results of analysing the human-structure interaction effect of the Olympic S...
The interest for modelling of human actions acting on structures has been recurrent since the first...
Human rhythmic jumping is known to induce significant vibrations of civil structures, such as grands...
This article is a state of the art about Grandstands. The Grandstands are slender structures designe...
Prediction of dynamic loads induced by groups and crowds of people bouncing is a hot topic among des...
Occupants of a structure are thought to behave as a dynamic spring-mass-damper system interacting wi...
The possibility of excessive vibration on cantilever grandstands caused by lively human-induced load...
This paper describes the design, construction and use of a unique laboratory rig for the study of dy...
This paper describes the design, construction and use of a unique laboratory rig for the study of dy...
On structures carrying humans (e.g. floors, grandstands in stadia etc.) there may be two different t...
Modelling the interaction between crowds and temporary demountable grandstands with identifying the ...
Human-induced rhythmic loading is an increasingly critical aspect in the design process of civil eng...
& This paper provides an overview of the response of grandstands to dynamic crowd loading. It su...
Predicting vibration performance of civil engineering structures due to human induced rhythmic loadi...
This paper details a first attempt to develop a simple human-structure dynamic interaction (HSDI) mo...
This paper presents the results of analysing the human-structure interaction effect of the Olympic S...
The interest for modelling of human actions acting on structures has been recurrent since the first...
Human rhythmic jumping is known to induce significant vibrations of civil structures, such as grands...
This article is a state of the art about Grandstands. The Grandstands are slender structures designe...
Prediction of dynamic loads induced by groups and crowds of people bouncing is a hot topic among des...
Occupants of a structure are thought to behave as a dynamic spring-mass-damper system interacting wi...