The effect of wearable resistance on kinematics and kinetics of typical footwork technique in badminton

This thesis investigated an acute intervention with wearable resistance (WR) trainingin badminton-specific typical footwork (left-forward (LF) backhand lunges and rightforward(RF) forehand lunges), aiming to impro...

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Main Author:	Lin, Yu
Format:	thesis
Language:	eng
Published:	2022
Subjects:	GV Recreation Leisure
Online Access:	https://ir.upsi.edu.my/detailsg.php?det=8935
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record_format	uketd_dc
institution	Universiti Pendidikan Sultan Idris
collection	UPSI Digital Repository
language	eng
topic	GV Recreation Leisure
spellingShingle	GV Recreation Leisure Lin, Yu The effect of wearable resistance on kinematics and kinetics of typical footwork technique in badminton
description	<p>This thesis investigated an acute intervention with wearable resistance (WR) training</p><p>in badminton-specific typical footwork (left-forward (LF) backhand lunges and rightforward</p><p>(RF) forehand lunges), aiming to improve performance, minimize fatigue and</p><p>reduce injury risks. Eighteen male university level badminton athletes participated in</p><p>this project. Kinematics and kinetics were measured during LF and RF with the WR on</p><p>the lower limb. Different WR loading were recorded with unload (0%), and with</p><p>loading equivalent to 3%, 6% and 10% of body mass (BM) while performing typical</p><p>badminton footwork. A larger hip range of motion (ROM) in the sagittal plane while</p><p>smaller frontal ROM during RF compared with LF. Knee showed smaller frontal and</p><p>horizontal ROM during LF compared with RF. Ankle had larger dorsiflexion and ROM</p><p>during RF than LF with moderate WR loadings. Ankle frontal ROM during RF were</p><p>smaller than LF. Hip showed smaller flexion and internal rotation moments but larger</p><p>adduction moments during RF compared with LF. RF had larger abduction smaller</p><p>internal rotation and larger external rotation moments in the knee. Smaller dorsiflexion</p><p>and plantarflexion moments, inversion and eversion moments was found compared</p><p>with LF. Under incremental WR loadings, difference was found, indicating different</p><p>strategies responding the increased WR, suggesting the program of WR training</p><p>intervention should be tasks-based. LF rely on hip to facilitate movements, whereas RF</p><p>rely on knee and ankle joint to generate power. LF may exert more loading to knee,</p><p>thus a slow and gradual increment of WR load should be considered to prevent over</p><p>loading injuries. Findings may assist the development of badminton-specific</p><p>movements training program, particularly on badminton court to mimic real-match</p><p>scenarios, to enhance movement-specific fitness level and reduce motor fatigue, thus</p><p>improving the on-court performance and minimizing potential injury risks.</p>
format	thesis
qualification_name
qualification_level	Doctorate
author	Lin, Yu
author_facet	Lin, Yu
author_sort	Lin, Yu
title	The effect of wearable resistance on kinematics and kinetics of typical footwork technique in badminton
title_short	The effect of wearable resistance on kinematics and kinetics of typical footwork technique in badminton
title_full	The effect of wearable resistance on kinematics and kinetics of typical footwork technique in badminton
title_fullStr	The effect of wearable resistance on kinematics and kinetics of typical footwork technique in badminton
title_full_unstemmed	The effect of wearable resistance on kinematics and kinetics of typical footwork technique in badminton
title_sort	effect of wearable resistance on kinematics and kinetics of typical footwork technique in badminton
granting_institution	Universiti Pendidikan Sultan Idris
granting_department	Fakulti Sains Sukan dan Kejurulatihan
publishDate	2022
url	https://ir.upsi.edu.my/detailsg.php?det=8935
_version_	1776104581437063168
spelling	oai:ir.upsi.edu.my:89352023-05-11 The effect of wearable resistance on kinematics and kinetics of typical footwork technique in badminton 2022 Lin, Yu GV Recreation Leisure <p>This thesis investigated an acute intervention with wearable resistance (WR) training</p><p>in badminton-specific typical footwork (left-forward (LF) backhand lunges and rightforward</p><p>(RF) forehand lunges), aiming to improve performance, minimize fatigue and</p><p>reduce injury risks. Eighteen male university level badminton athletes participated in</p><p>this project. Kinematics and kinetics were measured during LF and RF with the WR on</p><p>the lower limb. Different WR loading were recorded with unload (0%), and with</p><p>loading equivalent to 3%, 6% and 10% of body mass (BM) while performing typical</p><p>badminton footwork. A larger hip range of motion (ROM) in the sagittal plane while</p><p>smaller frontal ROM during RF compared with LF. Knee showed smaller frontal and</p><p>horizontal ROM during LF compared with RF. Ankle had larger dorsiflexion and ROM</p><p>during RF than LF with moderate WR loadings. Ankle frontal ROM during RF were</p><p>smaller than LF. Hip showed smaller flexion and internal rotation moments but larger</p><p>adduction moments during RF compared with LF. RF had larger abduction smaller</p><p>internal rotation and larger external rotation moments in the knee. Smaller dorsiflexion</p><p>and plantarflexion moments, inversion and eversion moments was found compared</p><p>with LF. Under incremental WR loadings, difference was found, indicating different</p><p>strategies responding the increased WR, suggesting the program of WR training</p><p>intervention should be tasks-based. LF rely on hip to facilitate movements, whereas RF</p><p>rely on knee and ankle joint to generate power. LF may exert more loading to knee,</p><p>thus a slow and gradual increment of WR load should be considered to prevent over</p><p>loading injuries. Findings may assist the development of badminton-specific</p><p>movements training program, particularly on badminton court to mimic real-match</p><p>scenarios, to enhance movement-specific fitness level and reduce motor fatigue, thus</p><p>improving the on-court performance and minimizing potential injury risks.</p> 2022 thesis https://ir.upsi.edu.my/detailsg.php?det=8935 https://ir.upsi.edu.my/detailsg.php?det=8935 text eng closedAccess Doctoral Universiti Pendidikan Sultan Idris Fakulti Sains Sukan dan Kejurulatihan <p>Abdi, H., & Williams, L. J. (2010). Principal component analysis. Wiley</p><p>interdisciplinary reviews: computational statistics, 2(4), 433-459.</p><p></p><p>Alcaraz, P. E., Palao, J. M., Elvira, J. L., & Linthorne, N. P. (2008). 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The effect of wearable resistance on kinematics and kinetics of typical footwork technique in badminton

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