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Quantifying technical actions in professional soccer using foot-mounted inertial measurement units

Quantifying technical actions in professional soccer using foot-mounted inertial measurement units Objectives This study aimed to (i) establish the concurrent validity and intra-unit reliability of a foot-mounted inertial measurement unit for monitoring soccer technical actions, (ii) quantify the within-microcycle inter-positional differences in the technical actions of professional soccer training, and (iii) determine the influence of drill category on the technical actions of professional soccer training. Methods Twenty-one professional soccer players’ technical performance data (ball touches, releases, ball touches per minute, releases per minute), collected during training sessions throughout twenty-four weekly microcycles, were analysed using general linear modelling. Results The inertial measurement unit exhibited good concurrent validity (PA = 95.1% – 100.0%) and intra-unit reliability (PA = 95.9% – 96.9%, CV = 1.4% – 2.9%) when compared with retrospective video analyses. The most ball touches ( = 218.0) and releases ( = 110.8) were observed on MD – 1, with MD – 5 eliciting the highest frequency of ball touches ( = 3.8) and releases ( = 1.7) per minute. Central midfielders performed the most ball touches ( = 221.9), releases ( = 108.3), ball touches per minute ( = 3.4) and releases per minute ( = 1.6). Small-sided games evoked more ball touches ( diff = 1.5) and releases per minute ( diff = 0.1) than previously reported in match-play. The fewest ball touches ( = 1.2) and releases per minute ( = 0.5) were observed during tactical drills. Conclusion The results of this study provide a novel understanding of the within-microcycle, inter-positional and drill category differences in the technical actions performed by professional players during training. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Science and Medicine in Football Taylor & Francis

Quantifying technical actions in professional soccer using foot-mounted inertial measurement units

Quantifying technical actions in professional soccer using foot-mounted inertial measurement units

Science and Medicine in Football , Volume 6 (2): 12 – Apr 3, 2022

Abstract

Objectives This study aimed to (i) establish the concurrent validity and intra-unit reliability of a foot-mounted inertial measurement unit for monitoring soccer technical actions, (ii) quantify the within-microcycle inter-positional differences in the technical actions of professional soccer training, and (iii) determine the influence of drill category on the technical actions of professional soccer training. Methods Twenty-one professional soccer players’ technical performance data (ball touches, releases, ball touches per minute, releases per minute), collected during training sessions throughout twenty-four weekly microcycles, were analysed using general linear modelling. Results The inertial measurement unit exhibited good concurrent validity (PA = 95.1% – 100.0%) and intra-unit reliability (PA = 95.9% – 96.9%, CV = 1.4% – 2.9%) when compared with retrospective video analyses. The most ball touches ( = 218.0) and releases ( = 110.8) were observed on MD – 1, with MD – 5 eliciting the highest frequency of ball touches ( = 3.8) and releases ( = 1.7) per minute. Central midfielders performed the most ball touches ( = 221.9), releases ( = 108.3), ball touches per minute ( = 3.4) and releases per minute ( = 1.6). Small-sided games evoked more ball touches ( diff = 1.5) and releases per minute ( diff = 0.1) than previously reported in match-play. The fewest ball touches ( = 1.2) and releases per minute ( = 0.5) were observed during tactical drills. Conclusion The results of this study provide a novel understanding of the within-microcycle, inter-positional and drill category differences in the technical actions performed by professional players during training.

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References (111)

Publisher
Taylor & Francis
Copyright
© 2021 Informa UK Limited, trading as Taylor & Francis Group
ISSN
2473-4446
eISSN
2473-3938
DOI
10.1080/24733938.2021.1910333
Publisher site
See Article on Publisher Site

Abstract

Objectives This study aimed to (i) establish the concurrent validity and intra-unit reliability of a foot-mounted inertial measurement unit for monitoring soccer technical actions, (ii) quantify the within-microcycle inter-positional differences in the technical actions of professional soccer training, and (iii) determine the influence of drill category on the technical actions of professional soccer training. Methods Twenty-one professional soccer players’ technical performance data (ball touches, releases, ball touches per minute, releases per minute), collected during training sessions throughout twenty-four weekly microcycles, were analysed using general linear modelling. Results The inertial measurement unit exhibited good concurrent validity (PA = 95.1% – 100.0%) and intra-unit reliability (PA = 95.9% – 96.9%, CV = 1.4% – 2.9%) when compared with retrospective video analyses. The most ball touches ( = 218.0) and releases ( = 110.8) were observed on MD – 1, with MD – 5 eliciting the highest frequency of ball touches ( = 3.8) and releases ( = 1.7) per minute. Central midfielders performed the most ball touches ( = 221.9), releases ( = 108.3), ball touches per minute ( = 3.4) and releases per minute ( = 1.6). Small-sided games evoked more ball touches ( diff = 1.5) and releases per minute ( diff = 0.1) than previously reported in match-play. The fewest ball touches ( = 1.2) and releases per minute ( = 0.5) were observed during tactical drills. Conclusion The results of this study provide a novel understanding of the within-microcycle, inter-positional and drill category differences in the technical actions performed by professional players during training.

Journal

Science and Medicine in FootballTaylor & Francis

Published: Apr 3, 2022

Keywords: Professional soccer training; technical actions; player monitoring; microcycle; microtechnology

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