The aim of this study was to optimise springboard diving takeoff technique for maximum forward rotation using a computer simulation model. A planar eight-segment model of a diver with torque generators together with a springboard model was developed. The model was evaluated by comparing simulation output with an elite diver's performance. The model was then used to optimise takeoff techniques for maximum rotational potential in the forward dive group by varying the activation timings of the torque-generators. There was a 20% increase in rotational potential in the optimised simulation compared to a performance of a forward two and one-half somersault pike (105 B) dive. The results highlight the importance of technique in springboard diving ...
An angle-driven computer simulation model of aerial movement was used to determine the maximum amoun...
The purpose of this study was to investigate the optimal technique to produce somersault rotation i...
In springboard diving, low variability in takeoff conditions and in the somersault orientation angle...
The aim of this study was to investigate the effects of imposing anatomical constraints and robustne...
Performance in the flight phase of springboard diving is limited by the amounts of linear and angula...
A computer simulation model of a springboard and a diver was developed to investigate diving takeoff...
This study used optimisation procedures in conjunction with an 8-segment torque-driven computer simu...
This paper presents a model which describes the vertical, horizontal and rotational movement of a di...
Maximum-height jumping and jumping for maximizing backward somersault rotations are simulated. The s...
Forward and reverse springboard somersaulting dives use similar approaches with a hurdle step prior ...
In springboard diving consistency of body orientation at water entry is necessary for a good dive an...
© 2018 Elsevier B.V. An angle-driven computer simulation model of aerial movement was used to determ...
The purpose of this study was to simulate the flight phase of a back 3½ somersault tuck (207 C) for ...
While there has been much research published on the kinematics and kinetics of forward dives from a ...
The aim of this study was to optimize platform diving techniques of the reverse group using a comput...
An angle-driven computer simulation model of aerial movement was used to determine the maximum amoun...
The purpose of this study was to investigate the optimal technique to produce somersault rotation i...
In springboard diving, low variability in takeoff conditions and in the somersault orientation angle...
The aim of this study was to investigate the effects of imposing anatomical constraints and robustne...
Performance in the flight phase of springboard diving is limited by the amounts of linear and angula...
A computer simulation model of a springboard and a diver was developed to investigate diving takeoff...
This study used optimisation procedures in conjunction with an 8-segment torque-driven computer simu...
This paper presents a model which describes the vertical, horizontal and rotational movement of a di...
Maximum-height jumping and jumping for maximizing backward somersault rotations are simulated. The s...
Forward and reverse springboard somersaulting dives use similar approaches with a hurdle step prior ...
In springboard diving consistency of body orientation at water entry is necessary for a good dive an...
© 2018 Elsevier B.V. An angle-driven computer simulation model of aerial movement was used to determ...
The purpose of this study was to simulate the flight phase of a back 3½ somersault tuck (207 C) for ...
While there has been much research published on the kinematics and kinetics of forward dives from a ...
The aim of this study was to optimize platform diving techniques of the reverse group using a comput...
An angle-driven computer simulation model of aerial movement was used to determine the maximum amoun...
The purpose of this study was to investigate the optimal technique to produce somersault rotation i...
In springboard diving, low variability in takeoff conditions and in the somersault orientation angle...