Faugloire Elise, Bardy Benoît G, Stoffregen Thomas A
Research Center in Sport Sciences, University of Paris Sud XI, Orsay, France.
J Mot Behav. 2006 Jul;38(4):299-312. doi: 10.3200/JMBR.38.4.299-312.
In stance, rotations around the hips and ankles typically exhibit a relative phase close to 20 degrees or 180 degrees . In 2 experiments, the authors studied the reciprocal influence of those coordination tendencies with learning an ankle-hip relative phase of 135 degrees . Before, during, and after learning a new mode of coordination, they assessed participants' (N = 24 in each experiment) spontaneous postural patterns with a tracking task in which no specific coordination was required. Learning the 135 degrees phase relation led to persistent modifications of the spontaneous in-phase and antiphase modes. Contrary to the theoretical predictions of the dynamical approach, the initial stability of the preexisting patterns did not influence the difficulty of producing the new mode or the improvement in performance during learning. Initial stability did, however, influence the rate and type of modification of spontaneous patterns. The authors discuss the results in relation to conclusions drawn from bimanual studies.
例如,围绕臀部和脚踝的旋转通常呈现接近20度或180度的相对相位。在两项实验中,作者研究了这些协调倾向与学习135度脚踝-臀部相对相位之间的相互影响。在学习新的协调模式之前、期间和之后,他们通过一项无需特定协调的跟踪任务评估参与者(每个实验N = 24)的自发姿势模式。学习135度相位关系导致自发同相和反相模式的持续改变。与动力学方法的理论预测相反,先前模式的初始稳定性并不影响产生新模式的难度或学习过程中的表现改善。然而,初始稳定性确实影响自发模式的改变速率和类型。作者结合双手研究得出的结论讨论了这些结果。