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The limits of aerial techniques for producing twist in forward 1½ somersault dives
journal contribution
posted on 2018-02-26, 13:36 authored by Fred YeadonFred Yeadon, Michael HileyMichael Hiley© 2018 Elsevier B.V. An angle-driven computer simulation model of aerial movement was used to determine the maximum amount of twist that can be produced in a forward 1½ somersault dive from a three-metre springboard using various aerial twisting techniques. The segmental inertia parameters of an elite springboard diver were used in the simulations and lower bounds were placed on the durations of arm and hip angle changes based on recorded performances of twisting somersaults. A limiting dive was identified as that producing the largest possible whole number of twists. Simulations of the limiting dives were found using simulated annealing optimisation to produce the required amounts of somersault, tilt and twist after a flight time of 1.5 s. Additional optimisations were then run to seek solutions with the arms less adducted during the twisting phase. It was found that the upper limits ranged from two to five twists with arm abduction ranges lying between 6° and 17°. Similar results were obtained when the inertia parameters of two other springboard divers were used.
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School
- Sport, Exercise and Health Sciences
Published in
Human Movement ScienceVolume
58Pages
97 - 107Citation
YEADON, M.R. and HILEY, M.J., 2018. The limits of aerial techniques for producing twist in forward 1½ somersault dives. Human Movement Science, 58, pp. 97-107.Publisher
© ElsevierVersion
- AM (Accepted Manuscript)
Publisher statement
This paper was accepted for publication in the journal Human Movement Science and the definitive published version is available at https://doi.org/10.1016/j.humov.2018.01.009Acceptance date
2018-01-14Publication date
2018-02-03ISSN
0167-9457eISSN
1872-7646Publisher version
Language
- en
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