Abstract. This work focuses on thn specific aspects of High Diving: Water impact because of the platforms locates up 28 meters, Lack of training sessions, exception the day before the competition. The mahod is integrated and composed by tw distinct approaches: Biomechanical to simulate the calculation impact to water for body damages and suggestions wr better performances; Performance Analysis to analyze trough video analysis technfual aswcts and modeling better performances. Data show the athlete's body takes the maximum charge when it is partially submerged. Which means, diver of 80 kg with a surface impact equal to 0,000508 m2 with feet in hypera,tension, jumptng from a height of 28m finds its highest stimuli at 12994,525 Newton at 1.64 meters of water penetration. The duration of the maximum stimuli is 0.001 seconds. The impact could generate damages and bad perfonnarrces that evidences also in video analysis. It is possible to develop a model that, given height, weight and anthropometric values could be calculated the body segment that will suffer the most stress on impact and, so on calculate the changes in the coefficient of impact based on the exposed surface and with the help of video anlysis data to toke in relationship the biomechanical model .

Biomechanics and Performance Analysis in high diving

Izzo R.;
2013

Abstract

Abstract. This work focuses on thn specific aspects of High Diving: Water impact because of the platforms locates up 28 meters, Lack of training sessions, exception the day before the competition. The mahod is integrated and composed by tw distinct approaches: Biomechanical to simulate the calculation impact to water for body damages and suggestions wr better performances; Performance Analysis to analyze trough video analysis technfual aswcts and modeling better performances. Data show the athlete's body takes the maximum charge when it is partially submerged. Which means, diver of 80 kg with a surface impact equal to 0,000508 m2 with feet in hypera,tension, jumptng from a height of 28m finds its highest stimuli at 12994,525 Newton at 1.64 meters of water penetration. The duration of the maximum stimuli is 0.001 seconds. The impact could generate damages and bad perfonnarrces that evidences also in video analysis. It is possible to develop a model that, given height, weight and anthropometric values could be calculated the body segment that will suffer the most stress on impact and, so on calculate the changes in the coefficient of impact based on the exposed surface and with the help of video anlysis data to toke in relationship the biomechanical model .
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11576/2658295
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