A computer simulation model of human airborne movement is described. The body is modelled as 11 rigid linked segments with 17 degrees of freedom which are chosen with a view to modelling twisting somersaults. The accuracy of the model is evaluated by comparing the simulation values of the angles describing somersault, tilt and twist with the corresponding values obtained from film data of nine twisting somersaults. The maximum deviations between simulation and film are found to be 0.04 revolutions for somersault, seven degrees for tilt and 0.12 revolutions for twist. It is shown that anthropometric measurement errors, from which segmental inertia parameters are calculated, have a small effect on a simulation, whereas film digitization error...
This paper is concerned with a software simulation of movement of the human body. This simulation is...
An angle-driven computer simulation model of aerial movement was used to determine the maximum amoun...
The aim of this study was to use a computer simulation model of aerial movement to investigate the a...
A mathematical inertia model which permits the determination of personalized segmental inertia param...
A method is presented for determining the angular momentum of the human body about its mass centre f...
Twisting movements are categorised into three mechanical types, named as DIRECT, COUNTER-ROTATION an...
An 11-segment computer simulation model of aerial movement was used to generate a set of configurati...
The use of computer simulation models in studies of human movement is now widespread. Most of these...
The experimental simulation approach to the analysis of human airborne movements provides athletes, ...
In the takeoff and early flight phase of a twisting somersault, joint coordination is based on feed-...
A simulation model and a rigid body model are used to evaluate aerial twisting techniques. It is fou...
Quantitative mechanical analyses of human movement require the time histories of the angles which sp...
The simulation of aerial movement—III. The determination of the angular momentum of the human body T...
Experimental studies of sports technique are inherently problematical. In competitive situations bio...
In the aerials event of freestyle skiing, athletes perform three somersaults with up to five twists....
This paper is concerned with a software simulation of movement of the human body. This simulation is...
An angle-driven computer simulation model of aerial movement was used to determine the maximum amoun...
The aim of this study was to use a computer simulation model of aerial movement to investigate the a...
A mathematical inertia model which permits the determination of personalized segmental inertia param...
A method is presented for determining the angular momentum of the human body about its mass centre f...
Twisting movements are categorised into three mechanical types, named as DIRECT, COUNTER-ROTATION an...
An 11-segment computer simulation model of aerial movement was used to generate a set of configurati...
The use of computer simulation models in studies of human movement is now widespread. Most of these...
The experimental simulation approach to the analysis of human airborne movements provides athletes, ...
In the takeoff and early flight phase of a twisting somersault, joint coordination is based on feed-...
A simulation model and a rigid body model are used to evaluate aerial twisting techniques. It is fou...
Quantitative mechanical analyses of human movement require the time histories of the angles which sp...
The simulation of aerial movement—III. The determination of the angular momentum of the human body T...
Experimental studies of sports technique are inherently problematical. In competitive situations bio...
In the aerials event of freestyle skiing, athletes perform three somersaults with up to five twists....
This paper is concerned with a software simulation of movement of the human body. This simulation is...
An angle-driven computer simulation model of aerial movement was used to determine the maximum amoun...
The aim of this study was to use a computer simulation model of aerial movement to investigate the a...