Difference in sprinting stiffness, peak power, peak force and peak velocity between soccer players in different game positions
The objective of this study is to investigate if there is any difference in the sprinting stiffness (Kvert and Kleg) and peak FVP between three groups of soccer players: Defenders (DEF), Midfielders (MID) and Attackers (ATT), and to help with categorization of soccer players using sprinting stiff...
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sg-ntu-dr.10356-789562020-09-27T20:24:14Z Difference in sprinting stiffness, peak power, peak force and peak velocity between soccer players in different game positions Oh, Jun Wei Cabral Dos Santos Barbosa Tiago Manuel Science::General The objective of this study is to investigate if there is any difference in the sprinting stiffness (Kvert and Kleg) and peak FVP between three groups of soccer players: Defenders (DEF), Midfielders (MID) and Attackers (ATT), and to help with categorization of soccer players using sprinting stiffness and peak FVP. Short sprints are more essential in soccer, with straight-line sprinting frequently observed before a goal. With sprinting stiffness being associated to running speed, it can be used as a parameter to differentiate between players of different position, as a higher stiffness value suggests that an individual can run at higher speed. Likewise, other parameters such as peak velocity, peak power and peak force (peak FVP) can also be used. A cross-sectional cohort study was conducted, 14 participants in each category (n = 42) were recruited. Participants went through 3 x 30 metres sprint at 100% effort on grass, with Speedlight™ timing gates measuring their split timing, and Optogait™ floor-based photocell system measuring their contact time (tc) and flight time (tf) during sprinting. No significant difference was found between sprinting stiffness and game positions of soccer players (p > 0.05). Significant difference was found between peak FVP and game positions of soccer players (p < 0.05), with ATT possessing the highest means for peak FVP values. In conclusion, this study highlights the differences between players in different game positions for easier categorization. It also highlights the effect on sprinting stiffness when the study involves repeated sprinting and is performed on grass. Bachelor of Science (Sport Science and Management) 2019-11-12T08:48:02Z 2019-11-12T08:48:02Z 2019 Final Year Project (FYP) http://hdl.handle.net/10356/78956 en 52 p. application/pdf |
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Science::General Oh, Jun Wei Difference in sprinting stiffness, peak power, peak force and peak velocity between soccer players in different game positions |
| description |
The objective of this study is to investigate if there is any difference in the sprinting
stiffness (Kvert and Kleg) and peak FVP between three groups of soccer players: Defenders
(DEF), Midfielders (MID) and Attackers (ATT), and to help with categorization of soccer
players using sprinting stiffness and peak FVP. Short sprints are more essential in soccer, with
straight-line sprinting frequently observed before a goal. With sprinting stiffness being
associated to running speed, it can be used as a parameter to differentiate between players of
different position, as a higher stiffness value suggests that an individual can run at higher speed.
Likewise, other parameters such as peak velocity, peak power and peak force (peak FVP) can
also be used. A cross-sectional cohort study was conducted, 14 participants in each category (n
= 42) were recruited. Participants went through 3 x 30 metres sprint at 100% effort on grass,
with Speedlight™ timing gates measuring their split timing, and Optogait™ floor-based
photocell system measuring their contact time (tc) and flight time (tf) during sprinting. No
significant difference was found between sprinting stiffness and game positions of soccer
players (p > 0.05). Significant difference was found between peak FVP and game positions of
soccer players (p < 0.05), with ATT possessing the highest means for peak FVP values. In
conclusion, this study highlights the differences between players in different game positions for
easier categorization. It also highlights the effect on sprinting stiffness when the study involves
repeated sprinting and is performed on grass. |
| author2 |
Cabral Dos Santos Barbosa Tiago Manuel |
| author_facet |
Cabral Dos Santos Barbosa Tiago Manuel Oh, Jun Wei |
| format |
Final Year Project |
| author |
Oh, Jun Wei |
| author_sort |
Oh, Jun Wei |
| title |
Difference in sprinting stiffness, peak power, peak force and peak velocity between soccer players in different game positions |
| title_short |
Difference in sprinting stiffness, peak power, peak force and peak velocity between soccer players in different game positions |
| title_full |
Difference in sprinting stiffness, peak power, peak force and peak velocity between soccer players in different game positions |
| title_fullStr |
Difference in sprinting stiffness, peak power, peak force and peak velocity between soccer players in different game positions |
| title_full_unstemmed |
Difference in sprinting stiffness, peak power, peak force and peak velocity between soccer players in different game positions |
| title_sort |
difference in sprinting stiffness, peak power, peak force and peak velocity between soccer players in different game positions |
| publishDate |
2019 |
| url |
http://hdl.handle.net/10356/78956 |
| _version_ |
1681058622779424768 |