Fast Regulation of Vertical Squat Jump during push-off in skilled jumpers
The height of a maximum Vertical Squat Jump (VSJ) reflects the useful power produced by a jumper during the push-off phase. In turn this partly depends on the coordination of the jumper's segmental rotations at each instant. The physical system constituted by the jumper has been shown to be ver...
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Frontiers Media S.A.
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| Series: | Frontiers in Physiology |
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| Online Access: | http://journal.frontiersin.org/Journal/10.3389/fphys.2016.00289/full |
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doaj-71a67d58f79c4905aea2d19701e94d9a2020-11-24T22:35:55ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2016-07-01710.3389/fphys.2016.00289195495Fast Regulation of Vertical Squat Jump during push-off in skilled jumpersPatrick FARGIER0Raphael Massarelli1Tahar Rabahi2Tahar Rabahi3Angelo Gemignani4Emile Fargier5Patrick FARGIER6University of Lyon, University Claude Bernard Lyon 1, Inter-University Laboratory on Human Movement Biology, Federative Centre for Interdisciplinary Research in SportUniversity of Lyon, University Claude Bernard Lyon 1, Inter-University Laboratory on Human Movement Biology, Federative Centre for Interdisciplinary Research in SportUniversity of Lyon, University Claude Bernard Lyon 1, Inter-University Laboratory on Human Movement Biology, Federative Centre for Interdisciplinary Research in SportLaboratoire de Conception, Optimisation et Modélisation des systèmes (LCOM, EA 7306), Université de Lorraine, Ile du SaulcyDipartimento di Patologia Chirurgica, Medica, Molecolare et dell’Area Critica, Università degli StudiLaboratoire de Conception, Optimisation et Modélisation des systèmes (LCOM, EA 7306), Université de Lorraine, Ile du SaulcyUniversity of Lyon, University Claude Bernard Lyon 1, Inter-University Laboratory on Human Movement Biology, Federative Centre for Interdisciplinary Research in SportThe height of a maximum Vertical Squat Jump (VSJ) reflects the useful power produced by a jumper during the push-off phase. In turn this partly depends on the coordination of the jumper's segmental rotations at each instant. The physical system constituted by the jumper has been shown to be very sensitive to perturbations and furthermore the movement is realised in a very short time (ca. 300ms), compared to the timing of known feedback loops. However, the dynamics of the segmental coordination and its efficiency in relation to energetics at each instant of the push-off phase still remained to be clarified. Their study was the main purpose of the present research.Eight young adult volunteers (males) performed maximal VSJ. They were skilled in jumping according to their sport activities (track and field or volleyball). A video analysis on the kinematics of the jump determined the influence of the jumpers’ segments rotation on the vertical velocity and acceleration of the body mass center (MC). The efficiency in the production of useful power at the jumpers’ MC level, by the rotation of the segments, was measured in consequence. The results showed a great variability in the segmental movements of the eight jumpers, but homogeneity in the overall evolution of these movements with three consecutive types of coordination in the second part of the push-off (lasting roughly 0.16 s).Further analyses gave insights on the regulation of the push-off, suggesting that very fast regulation(s) of the VSJ may be supported by: (a) the adaptation of the motor cerebral programming to the jumper’s physical characteristics; (b) the control of the initial posture; and (c) the jumper’s perception of the position of his MC relative to the ground reaction force during push-off to reduce energetic losses.http://journal.frontiersin.org/Journal/10.3389/fphys.2016.00289/fullmotor controlpowervertical squat jumpintersegment coordinationexplosive movement. |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Patrick FARGIER Raphael Massarelli Tahar Rabahi Tahar Rabahi Angelo Gemignani Emile Fargier Patrick FARGIER |
| spellingShingle |
Patrick FARGIER Raphael Massarelli Tahar Rabahi Tahar Rabahi Angelo Gemignani Emile Fargier Patrick FARGIER Fast Regulation of Vertical Squat Jump during push-off in skilled jumpers Frontiers in Physiology motor control power vertical squat jump intersegment coordination explosive movement. |
| author_facet |
Patrick FARGIER Raphael Massarelli Tahar Rabahi Tahar Rabahi Angelo Gemignani Emile Fargier Patrick FARGIER |
| author_sort |
Patrick FARGIER |
| title |
Fast Regulation of Vertical Squat Jump during push-off in skilled jumpers |
| title_short |
Fast Regulation of Vertical Squat Jump during push-off in skilled jumpers |
| title_full |
Fast Regulation of Vertical Squat Jump during push-off in skilled jumpers |
| title_fullStr |
Fast Regulation of Vertical Squat Jump during push-off in skilled jumpers |
| title_full_unstemmed |
Fast Regulation of Vertical Squat Jump during push-off in skilled jumpers |
| title_sort |
fast regulation of vertical squat jump during push-off in skilled jumpers |
| publisher |
Frontiers Media S.A. |
| series |
Frontiers in Physiology |
| issn |
1664-042X |
| publishDate |
2016-07-01 |
| description |
The height of a maximum Vertical Squat Jump (VSJ) reflects the useful power produced by a jumper during the push-off phase. In turn this partly depends on the coordination of the jumper's segmental rotations at each instant. The physical system constituted by the jumper has been shown to be very sensitive to perturbations and furthermore the movement is realised in a very short time (ca. 300ms), compared to the timing of known feedback loops. However, the dynamics of the segmental coordination and its efficiency in relation to energetics at each instant of the push-off phase still remained to be clarified. Their study was the main purpose of the present research.Eight young adult volunteers (males) performed maximal VSJ. They were skilled in jumping according to their sport activities (track and field or volleyball). A video analysis on the kinematics of the jump determined the influence of the jumpers’ segments rotation on the vertical velocity and acceleration of the body mass center (MC). The efficiency in the production of useful power at the jumpers’ MC level, by the rotation of the segments, was measured in consequence. The results showed a great variability in the segmental movements of the eight jumpers, but homogeneity in the overall evolution of these movements with three consecutive types of coordination in the second part of the push-off (lasting roughly 0.16 s).Further analyses gave insights on the regulation of the push-off, suggesting that very fast regulation(s) of the VSJ may be supported by: (a) the adaptation of the motor cerebral programming to the jumper’s physical characteristics; (b) the control of the initial posture; and (c) the jumper’s perception of the position of his MC relative to the ground reaction force during push-off to reduce energetic losses. |
| topic |
motor control power vertical squat jump intersegment coordination explosive movement. |
| url |
http://journal.frontiersin.org/Journal/10.3389/fphys.2016.00289/full |
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