Quantifying and assessing biomechanical differences in swim turn using wearable sensors

James B Lee; R Leadbetter; Y Ohgi; D V Thiel; Brendan J Burkett; D A James

doi:10.1080/19346182.2012.725171

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Quantifying and assessing biomechanical differences in swim turn using wearable sensors

Journal article

Peer reviewed

Quantifying and assessing biomechanical differences in swim turn using wearable sensors

James B Lee, R Leadbetter, Y Ohgi, D V Thiel, Brendan J Burkett and D A James

Sports Technology, Vol.4(3-4), pp.128-133

2011

DOI: https://doi.org/10.1080/19346182.2012.725171

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Abstract

swimming

tumble turn

inertial sensor

performance

efficiency

The swim turn makes up a substantial portion of the total swim time in competition, and efficient turns can determine finishing positions in many competitions. Swim turns can be a neglected area of performance gain. This is largely due to the difficulty in extracting performance measures that might lead to improvement. An inertial sensor was used to assess the different phases of the swimming turn and the data were then compared to the synchronised video data. As a case study, two elite swimmers, a competitive pool swimmer and an elite Triathlete, were compared as a demonstration of the technology as a potential tool for routine use. The participants were asked to perform their typical tumble turn at two velocities. Timing of the rotation relative to the turn’s push off was measured. The inertial sensor detected differences in rotation between the two swimmers tested. The sensor reported that push off occurred for the competitive swimmer before 90°and for the Triathlete after 90°of rotation and was confirmed by video footage.

Details

Title: Quantifying and assessing biomechanical differences in swim turn using wearable sensors
Authors: James B Lee (Author) - Griffith University
R Leadbetter (Author) - Griffith University
Y Ohgi (Author) - Keio University, Japan
D V Thiel (Author) - Griffith University
Brendan J Burkett (Author) - University of the Sunshine Coast - Faculty of Science, Health, Education and Engineering
D A James (Author) - Griffith University
Publication details: Sports Technology, Vol.4(3-4), pp.128-133
Publisher: Routledge
Date published: 2011
DOI: 10.1080/19346182.2012.725171
ISSN: 1934-6182
Organisation Unit: Faculty of Science, Health, Education and Engineering; University of the Sunshine Coast, Queensland; School of Health - Sports & Exercise Science
Language: English
Record Identifier: 99450508302621
Output Type: Journal article

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