Bańkosz Ziemowit, Winiarski Sławomir
Department of Sports Didactics, Wrocław University of Health and Sport Sciences, Wrocław, Poland.
Department of Physiology and Biomechanics, Wrocław University of Health and Sport Sciences, Wrocław, Poland.
J Sports Sci Med. 2025 Jun 1;24(2):311-325. doi: 10.52082/jssm.2025.311. eCollection 2025 Jun.
This study aimed to (1) determine the kinematics of the different body parts during the execution of one of the basic combinations of plays - a few selected strokes and the footwork used to combine them, and (2) evaluate the variation of these kinematics. The study included eight male advanced-level (polish national team) table tennis players (aged 22.7 ± 2.7 years). All of them were right-handed and presented an offensive style of play. Participants performed one task: performing a series of topspin strokes. Kinematic parameters were measured using the MR3 myoMuscle Master Edition system. The movement of the playing hand was used to assess specific cycle events. Angular values and velocities of the body segments and maximal linear velocities of the playing hand were calculated. The basic statistics were applied. Quartile coefficients of variation were used to assess the interindividual variability. The research made it possible to determine the kinematics of the strokes used in the combination of plays in table tennis. The essential elements of coordination of movements during the combination of three topspin strokes were indicated. Players make strokes during a series of plays at high frequency and velocity (up to several hundred degrees/s at some joints), reducing the ranges of motion in specific body segments, which were observed to be smaller (even up to several dozen degrees) than the analogous ranges reported in the literature for single strokes. This seems to be a significant note to players and coaches in table tennis. In addition, the players execute the stroke slightly differently than in single strokes, which is caused by the need to combine the striking movement with footwork and quickly position themselves for subsequent hits. The players also used different, variable execution patterns (different angles - settings in the joints), although the effect - in the form of the maximum velocity of the playing hand - was very similar. This can be considered a manifestation of a phenomenon called "functional movement variability," which means that athletes adjust their movements using different movement patterns but achieve similar results regarding maximum linear hand speed. This highlights the importance of the individualisation process in table tennis.
(1)确定在执行一种基本打法组合(一些选定的击球动作以及用于组合这些动作的步法)过程中不同身体部位的运动学特征;(2)评估这些运动学特征的变化情况。该研究纳入了8名男性高级水平(波兰国家队)乒乓球运动员(年龄22.7±2.7岁)。他们均为右利手且呈现进攻型打法。参与者执行一项任务:进行一系列上旋球击球动作。使用MR3 myoMuscle Master Edition系统测量运动学参数。通过击球手的动作来评估特定的循环事件。计算身体各节段的角度值和速度以及击球手的最大线性速度。应用基本统计方法。四分位数变异系数用于评估个体间的变异性。该研究使得确定乒乓球打法组合中所使用击球动作的运动学特征成为可能。指出了三个上旋球击球动作组合过程中运动协调的基本要素。运动员在一系列击球过程中以高频和高速度(某些关节处高达数百度/秒)进行击球动作,特定身体节段的运动范围减小,观察到这些节段的运动范围比文献中报道的单击球动作的类似范围更小(甚至小至几十度)。这对乒乓球运动员和教练而言似乎是一个重要提示。此外,运动员执行击球动作的方式与单击球动作略有不同,这是由于需要将击球动作与步法相结合,并迅速为后续击球做好准备。运动员还使用了不同的、可变的执行模式(关节处的不同角度设置),尽管以击球手的最大速度形式呈现的效果非常相似。这可被视为一种名为“功能性运动变异性”现象的表现,即运动员使用不同的运动模式来调整他们的动作,但在手部最大线性速度方面取得类似的结果。这突出了乒乓球个性化训练过程的重要性。