G Robinson1, P O'Donoghue, B Wooster. 1. Faculty of Health, Sport and Science, Glyntarth Campus, University of Glamorgan, Glamorgan, UK.
Abstract
AIM: Traditional time-motion analysis methods have analysed broad locomotive movements and distances covered by players in different speed ranges. It is necessary to consider path changes made during movements in order to understand the agility requirements of soccer. The purpose of the current investigation was to describe the path changes performed in English FA Premier League soccer. METHODS: The Prozone® path change identification system identified three different types of path change within accurate timed player co-ordinate data gathered by the Prozone3® player tracking system. Data for 90 minute plus performances of 180 different players were included in the current investigation. RESULTS: The players performed 38±15 path changes of 45° to 135° to the left, 35.5±14.3 path changes of 45o to 135° to the right and 20.2±90 path changes of 135o or greater. Positional role had a significant influence on the number of each type of path change performed with midfielders performing more of each path change type than defenders and forwards. There was also a significant difference in the number of each type of path change performed between different 15 minute periods of the match with more of each type being performed in the first 15 minutes and fewer of each type being performed between 60 minutes and 75 minutes than during any other period. CONCLUSION: These results have implications for agility requirements of soccer match play that conditioning coaches should be aware of.
AIM: Traditional time-motion analysis methods have analysed broad locomotive movements and distances covered by players in different speed ranges. It is necessary to consider path changes made during movements in order to understand the agility requirements of soccer. The purpose of the current investigation was to describe the path changes performed in English FA Premier League soccer. METHODS: The Prozone® path change identification system identified three different types of path change within accurate timed player co-ordinate data gathered by the Prozone3® player tracking system. Data for 90 minute plus performances of 180 different players were included in the current investigation. RESULTS: The players performed 38±15 path changes of 45° to 135° to the left, 35.5±14.3 path changes of 45o to 135° to the right and 20.2±90 path changes of 135o or greater. Positional role had a significant influence on the number of each type of path change performed with midfielders performing more of each path change type than defenders and forwards. There was also a significant difference in the number of each type of path change performed between different 15 minute periods of the match with more of each type being performed in the first 15 minutes and fewer of each type being performed between 60 minutes and 75 minutes than during any other period. CONCLUSION: These results have implications for agility requirements of soccer match play that conditioning coaches should be aware of.
Authors: Jeffrey B Taylor; Alexis A Wright; Steven L Dischiavi; M Allison Townsend; Adam R Marmon Journal: Sports Med Date: 2017-12 Impact factor: 11.136
Authors: João P Duarte; Óscar Tavares; João Valente-Dos-Santos; Vítor Severino; Alexis Ahmed; Ricardo Rebelo-Gonçalves; João R Pereira; Vasco Vaz; Susana Póvoas; André Seabra; Sean P Cumming; Manuel J Coelho-E-Silva Journal: J Hum Kinet Date: 2016-10-14 Impact factor: 2.193