Analysis of Functional Arch Support Insoles on the Biomechanics and Performance in Right-Forward Lunging Step of Badminton Players

Chen, Hung-Wen; Peng, Hsien-Te; Yan, Wei

doi:10.3390/ijerph191811210

Cited by 2 publications

(1 citation statement)

References 30 publications

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“…Semua statement tersebut di dukung oleh teori yang mencakup faktor kinematik yang relevan (Chen et al, 2022)…”

Section: Hasil Dan Pembahasanunclassified

Sports Biomechanics and Motor Learning Research for Improving Badminton Smash Performance

Dwiwahyudi,

Darajat,

Gumilar

et al. 2024

JSSF

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Latar Belakang: Model hasil kinerja dalam analisis teknik kualitatif dapat mengidentifikasi interaksi mekanistik antara hasil kinerja dalam rekayasa gerak dan faktor-faktor yang menghasilkan hasil tersebut. Mengingat pentingnya keterampilan teknis ini sebagai dasar permainan bulu tangkis dan sebagai pukulan ofensif yang penting, pukulan forehand bulu tangkis dalam mode kerja ini kurang mendapat perhatian. Metode: Pada penelitian kali ini, peneliti menggunakan metode SLR (Systematic Literature Review), dengan menggunakan basis data digital. Dengan menggunakan kata kunci Badminton, Sports Biomechanics, kontrol motorik dan pembelajaran motorik. Tujuan: Penelitian ini mengusulkan model hasil kinerja yang menghubungkan kriteria kinerja dan variabel mekanis yang relevan dalam teknik forehand bulu tangkis. Hasil: Dari perspektif ini, jelas bahwa versi hasil kinerja keseluruhan yang diusulkan memungkinkan pemahaman yang lebih baik tentang fungsi kunci dasar dan tindakan mekanisnya hanya berdasarkan kinematika teknik forehand bulu tangkis. Disini pelatih dan pemain bulu tangkis juga harus memahami mekanis pukulan forehand bulu tangkis. Kesimpulan: model ini berhasil menemukan korelasi mekanis serta memungkinkan pemahaman yang lebih baik ihwal korelasi antara kriteria performa serta mekanik di teknik pukulan forehand bulu tangkis yg didasarkan pada prinsip rantai kinetik melalui koordinasi segmental tubuh.

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“…Semua statement tersebut di dukung oleh teori yang mencakup faktor kinematik yang relevan (Chen et al, 2022)…”

Section: Hasil Dan Pembahasanunclassified

Sports Biomechanics and Motor Learning Research for Improving Badminton Smash Performance

Dwiwahyudi,

Darajat,

Gumilar

et al. 2024

JSSF

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Comparison of mechanical energy transfer during right-forward lunge between female amateur and professional badminton players

Safavi,

Sheikhhoseini,

Abdollahi

2023

BMC Sports Sci Med Rehabil

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Background Regarding their skill levels, badminton players present different movement patterns during front and right lunging. The main objective of this study was to compare the mechanical energy transfers attributable to right-forward lunges between amateur and professional badminton players to study variations in mechanical efficiency at various skill levels. Method In this cross-sectional study, twenty female badminton players were recruited (Professional group n = 10 and Amateur group n = 10). The kinematics and kinetics of the lower extremities were recorded while performing right-forward lunges using Vicon motion capture and Kistler force plates. Mechanical energy expenditures (MEE) were extracted in eccentric transfer, concentric transfer, and no-transfer phases for the hip, knee, and ankle joints. At each joint, mechanical energy compensations (MEC) were also determined. Independent samples t-tests were used to analyze data at a significance level of α = 0.05. Result Regards to mechanical energy expenditures at the initial heel contact phase, the professional players demonstrated statistically significant more ankle no-transfer (p < 0.003), less knee concentric transfer (p < 0.026), more knee eccentric transfer (p < 0.001), and less hip no-transfer (p < 0.001). At the same time, the amateur athletes showed significantly more ankle eccentric transfer (p < 0.042) at maximal knee flexion angle time point. Analyzing mechanical energy compensation coefficients showed that the professional athletes had significantly less ankle concentric transfer (p < 0.001), more knee concentric transfer (p < 0.001), more knee eccentric transfer (p < 0.001), and more hip eccentric transfer (p < 0.001) at initial contact phase. While they found to have significantly more ankle eccentric transfer (p < 0.007), less knee concentric transfer (p < 0.001), less knee eccentric transfer (p < 0.001), more hip concentric transfer (p < 0.001), and more hip eccentric transfer (p < 0.001) at maximal knee flexion angle. Conclusion it is shown that the mechanical energy efficiency of the right-forward lunge is skill-related. It seems that altered lunge landing biomechanics may increase the risk of ankle and knee injuries and muscular damages in amateur athletes. It is recommended for amateur players to follow a injury prevention training program that promotes proper lunging technique.

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Analysis of Functional Arch Support Insoles on the Biomechanics and Performance in Right-Forward Lunging Step of Badminton Players

Cited by 2 publications

References 30 publications

Sports Biomechanics and Motor Learning Research for Improving Badminton Smash Performance

Sports Biomechanics and Motor Learning Research for Improving Badminton Smash Performance

Comparison of mechanical energy transfer during right-forward lunge between female amateur and professional badminton players

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