School of Mechanical Engineering, Engineering Campus, Universiti Sains Malaysia, 14300, Nibong Tebal, Penang, Malaysia.
School of Mechanical Engineering, Engineering Campus, Universiti Sains Malaysia, 14300, Nibong Tebal, Penang, Malaysia.
Comput Biol Med. 2019 May;108:213-222. doi: 10.1016/j.compbiomed.2019.04.003. Epub 2019 Apr 6.
Good badminton lunge skills have been quantitatively described using biomechanical attributes at both static and dynamic phases. The measurement of badminton lunge attributes has often been complicated by various experimental protocols used. No review article has considered or critically reviewed the attributes that align with badminton lunge performance. This paper, hence, presents a review of badminton lunge postures governed by various determinant attributes. This review was performed by involving a number of relevant search engines. A total of 21 articles that fulfilled the predefined inclusion criteria were analysed. The lunge determinant attributes, such as time, lunge distance, plantar, ground reaction force, joint, dynamic balance and muscle attributes, had been examined. Contradictory findings in the dynamic balance attributes, specifically the relative displacement between the centre of mass and the centre of pressure, are presented in this paper. The findings showed that time, lunge distance and ground reaction force determined lunge performance. On the other hand, plantar, joint, dynamic balance and muscle attributes appeared useful in minimising injuries to ensure efficient lunge performance.
好的羽毛球弓步技巧已经使用静态和动态阶段的生物力学属性进行了定量描述。由于使用了各种实验方案,羽毛球弓步属性的测量通常很复杂。没有评论文章考虑或批判性地审查与羽毛球弓步性能一致的属性。因此,本文介绍了受各种决定因素属性控制的羽毛球弓步姿势的综述。通过使用一些相关的搜索引擎进行了这项综述。总共分析了 21 篇符合预定义纳入标准的文章。研究了弓步决定因素属性,例如时间、弓步距离、足底、地面反作用力、关节、动态平衡和肌肉属性。本文介绍了动态平衡属性中的矛盾发现,特别是质心和压力中心之间的相对位移。研究结果表明,时间、弓步距离和地面反作用力决定了弓步性能。另一方面,足底、关节、动态平衡和肌肉属性似乎有助于减少受伤,以确保有效的弓步性能。
