题名

射箭專項能力之運動科學與發展技術

并列篇名

Archery specific-ability of sports science and development technology

DOI

10.53106/207332672022031901006

作者

張吉堯(Chi-Yao Chang);林勁宏(Ching-Hung Lin);林國全(Kuo-Chuan Lin);吳政文(Cheng-Wen Wu)

关键词

動作分期 ; 射擊循環 ; 運動表現 ; 感測技術 ; Motion phase ; Shot cycle ; Sports performance ; Sensor technology

期刊名称

華人運動生物力學期刊

卷期/出版年月

19卷1期(2022 / 03 / 01)

页次

38 - 43

内容语文

繁體中文
中文摘要

目的:射箭為一項使用精細動作結合的運動,此外射箭動作因素包含各種複雜動作階段,動作週期穩定能力為重要因素,評估運動表現也是不可或缺的部分。方法:本研究以不同角度探討射箭之運動科學應用與發展:一、射箭整體動作與運動表現,二、運動科學輔助射箭專項,三、感測技術應用射箭技術分析。結果:本篇回顧性論文發現,運動科學(運動生物力學與感測技術)為評估運動表現方法,訓練過程中以量化測量將是有效改善射箭動作評估方法。結論:因此可知結合感測器於專項中可有效量測指標,此外更能提供給教練與研究人員於進行射箭相關研究時,將可以針對動作周期與特徵值以定量方式進行測量。
英文摘要

Purpose: There was a lot of fine movement used in archery. Also, the factor of archery movements contain variety complex of motion phase. Therefore, the shot cycle of stability been shown to be important contributing factors of archery, furthermore of evaluating the performance is an integral part. Methods: The studies investigate sports sciences application of the archery shot cycle and its development in different perspective: 1. The archery shot cycle phases and sports performance. 2. The sports science enhanced archery. 3. Application of sensor technology to analysis in the archery. Results: This review demonstrates shown the sports science (biomechanics and sensor technology) is a very useful metric for assessing sports performance, quantitative measure the progress on training, and finding improve methods in archery's motion. Conclusions: Thus, concluded that the combine sensors are effective in measuring the skills indicators. Therefore, the suggestion for the coach and researchers is that taking quantitative as the evaluation when making the study of the archery, the measure of the shot cycle and characteristic value.
主题分类 社會科學 > 體育學
参考文献
  1. Lin, K. B.,Hwang, C. K.(2005).Analyses of the relationship between the aiming time and the shot points in archery.Sports &exercise research,7(4),161-173.
    連結:
  2. 李佳倫,石罕池(2013)。優秀射箭選手於競賽中之瞄準時間與射箭成績的關係。文化體育學刊,31-41。
    連結:
  3. Coaching Manual—Level 1. Available online: https://worldarchery.org/Coaching (accessed on 4 June 2019).
  4. Callaway, A. J.,Wiedlack, J.,Heller, M.(2017).Identification of temporal factors related to shot performance for indoor recurve archery.Journal of Sports Sciences,35(12),1142-1147.
  5. Eckelt, M.,Mally, F.,Brunner, A.(2020).Use of Acceleration Sensors in Archery.In Multidisciplinary Digital Publishing Institute Proceedings,49(1),98.
  6. Ertan, H.(2009).Muscular activation patterns of the bow arm in recurve archery.Journal of Science and Medicine in Sport,12(3),357-360.
  7. Ertan, H. U. L. U. S.,Kentel, B.,Tümer, S. T.,Korkusuz, F. E. Z. A.(2003).Activation patterns in forearm muscles during archery shooting.Human movement science,22(1),37-45.
  8. Ertan, H. U. L. U. S.,Soylu, A. R.,Korkusuz, F. E. Z. A.(2005).Quantification the relationship between FITA scores and EMG skill indexes in archery.Journal of Electromyography and Kinesiology,15(2),222-227.
  9. Heller, M.(2012).Evaluation of arrow release in highly skilled archers using an acoustic measurement system.Procedia Engineering,34,532-537.
  10. Kolayiş, İ. E.,Ertan, H.(2016).Differences in activation patterns of shoulder girdle muscles in recurve archers.Pamukkale Spor Bilimleri Dergisi,7(1),25-34.
  11. Quan, C. H.,Mohy-Ud-Din, Z.,Lee, S.(2017).Analysis of shooting consistency in archers: A dynamic time warping algorithm-based approach.Journal of Sensors,2017
  12. Sanes, J. N.,Evarts, E. V.(1983).Effects of perturbations on accuracy of arm movements.Journal of Neuroscience,3(5),977-986.
  13. Schnieders, T. M.,Stone, R. T.,Oviatt, T.,Danford-Klein, E(2017).ARCTiC LawE: An Upper-Body Exoskeleton for Firearm Training.Augmented Human Research,2(1),1.
  14. Serrien, B.,Witterzeel, E.,Baeyens, J. P.(2018).The Uncontrolled Manifold Concept Reveals That the Structure of Postural Control in Recurve Archery Shooting Is Related to Accuracy.Journal of Functional Morphology and Kinesiology,3(3),48.
  15. Simsek, D.,Ertan, H.(2014).The different release techniques in high level archery: A comparative case study.Türk Spor ve Egzersiz Dergisi,16(3),20-25.
  16. Spratford, W.,Campbell, R.(2017).Postural stability, clicker reaction time and bow draw force predict performance in elite recurve archery.European journal of sport science,17(5),539-545.
  17. Stone, R. T.(2007).The biomechanical and physiological link between archery techniques and performance.Proceedings of the human factors and ergonomics society annual meeting,Sage CA:
  18. Taha, Z.,Musa, R. M.,Majeed, A. P. A.,Alim, M. M.,Abdullah, M. R.(2018).The identification of high potential archers based on fitness and motor ability variables: A Support Vector Machine approach.Human movement science,57,184-193.
  19. Tahaa, Z.,MatYJizatbk, J. A.,Omarc, S. F. S.,Suwargandad, E.(2016).Correlation Between ArcherГs Hands Movement While Shooting and Its Score.Procedia Engineering,147,145-150.
  20. Tinazci, C.(2011).Shooting dynamics in archery: A multidimensional analysis from drawing to releasing in male archers.Procedia Engineering,13,290-296.
  21. Vervaeke, J.,Saldien, J.(2015).Verstockt, S. ArcAid Interactive Archery Assistant.Proceedings of the 2015 7th International Conference on Intelligent Technologies for Interactive Entertainment (INTETAIN),Turin, Italy:
  22. 邱炳坤,王麗鈞,陳詩園(2011)。射箭教練選擇選手站姿之決策分析。大專體育學術專刊,209-216。
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